CXSD6289 has two synchronous buck PWM control-lers with high precision internal references voltage to of-fer accurate outputs. The PWM controllers are designed to drive two N-channel MOSFETs in s

发布时间:2020-04-06 09:43:38 浏览次数:716 作者:嘉泰姆 来源:1
摘要:CXSD6289 has two synchronous buck PWM control-lers with high precision internal references voltage to of-fer accurate outputs. The PWM controllers are designed to drive two N-channel MOSFETs in s

目录HA3嘉泰姆

1.产品概述                       2.产品特点
3.应用范围                       4.下载产品资料PDF文档 
5.产品封装图</span>                     6.电路原理图</span>                   
7.
功能概述
                        8.相关产品HA3嘉泰姆

,产品概述(General Description)      HA3嘉泰姆


          The CXSD6289 has two synchronous buck PWM control-lers with high
precision internal references voltage to of-fer accurate outputs. The PWM
controllers are designed to drive two N-channel MOSFETs in synchronous
buck topology. The device requires 12V and 5V power supplies.If the 5V
supply is not available, the device can offer an optional shunt regulator
5.8V for 5V supply.Both outputs have independent soft-start and enable
func-tions combined on the SS/EN pin. Connecting a capaci-tor from each
SS/EN pin to the ground for setting the soft-start time, and pulling the SS/EN
pin voltage below 1V to disable regulator. The device also offers 180°phase
shift function between OUT1 and OUT2.The default switching frequency is
300kHz (keep the FS pin open or short to GND), and the device also provides
the programmable switching frequency function to ad-just the switching frequency
from 70kHz to 800kHz. Con-necting a resistor from FS pin to GND increases the
switching frequency. Conversely, connecting a resistor from FS pin to VCC12
decreases the switching frequency.There is no current sensing or under-voltage
sensing on the CXSD6289. However, it provides a simple short-circuit protection by monitoring the COMP1 pin and COMP2 pin 
for over-voltage. When any of two pins
exceed their trip 
point and the condition keeps for 1-2 internal clock cycles (3-6us at
300kHz), all regulators are latched off.

二</span>.产品特点(Features)HA3嘉泰姆


1.)Two Synchronous Buck Converters(OUT1,OUT2)
2.)Converter Input Voltage Range up to 12V
3.)0.6V Reference for OUT1 with 0.8% Accuracy
4.)3.3V Reference for OUT2 with 0.8% Accuracy
5.)Both Outputs have Independent Soft-Start and
    Enable Functions
6.)Internal 300kHz Oscillator and Programmable
    Frequency Range from 70 kHz to 800kHz
7.)180 Degrees Phase Shift etween OUT1 and OUT2
8.)Short-Circuit Protection
9.)Thermally Enhanced SOP-20 Package
10.)Lead Free and Green Devices Available
(RoHS Compliant)

三</span>,应用范围 (Applications)HA3嘉泰姆


Graphic Cards
Low-Voltage Distributed Power Supplies
SMPS Application

四.下载产品资料PDF文档 HA3嘉泰姆


需要详细的PDF规格书请扫一扫微信联系我们,还可以获得免费样品以及技术支持</span>!</span>
HA3嘉泰姆

 QQ截图20160419174301.jpgHA3嘉泰姆

五,产品封装图 (Package)
blob.pngHA3嘉泰姆

六.电路原理图</span>HA3嘉泰姆


blob.png
七</span>,功能概述HA3嘉泰姆


Output Inductor Selection (Cont.)
Where Fs is the switching frequency of the regulator. Al-though increase the inductor value and frequency
reduce the ripple current and voltage, but there is a tradeoff ex-ists between the inductor’s ripple current and
the regula-tor load transient response time.A smaller inductor will give the regulator a faster load transient
response at the expense of higher ripple current.Increasing the switching frequency (FS) also reduces the
ripple current and voltage, but it will increase the switch-ing loss of the MOSFET and the power dissipation
of the converter. The maximum ripple current occurs at the maximum input voltage. A good starting point is
to choose the ripple current to be approximately 30% of the maxi-mum output current.Once the inductance
value has been chosen, select an inductor that is capable of carrying the required peak cur-rent without going
into saturation. In some types of inductors, especially core that is made of ferrite, the ripple current will increase
abruptly when it saturates. This will result in a larger output ripple voltage.
Output Capacitor Selection
Higher Capacitor value and lower ESR reduce the output ripple and the load transient drop. Therefore select high
performance low ESR capacitors that are intended for switching regulator applications. In some applications,
multiple capacitors have to be parallel to achieve the de-sired ESR value. A small decoupling capacitor in parallel
for bypassing the noise is also recommended, and the voltage rating of the output capacitors are also must be
considered. If tantalum capacitors are used, make sure they are surge tested by the manufactures. If in doubt,
consult the capacitors manufacturer.
Input Capacitor Selection
The input capacitor is chosen based on the voltage rating and the RMS current rating. For reliable operation, HA3嘉泰姆

select the capacitor voltage rating to be at least 1.3 times higher than the maximum input voltage.
The maximum RMS current rating requirement is approxi-mately IOUT/2, where IOUT is the load current. HA3嘉泰姆

During power up, the input capacitors have to handle large amount of surge current. If tantalum capacitors HA3嘉泰姆

are used, make sure they are surge tested by the manufactures. If in doubt, consult the capacitors HA3嘉泰姆

manufacturer. For high frequency decoupling, a ceramic capacitor 1uF can be connected between the HA3嘉泰姆

drain of upper MOSFET and the source of lower MOSFET. 
MOSFET Selection
The selection of the N-channel power MOSFETs are de-termined by the RDS(ON), reverse transfer HA3嘉泰姆

capacitance (CRSS) and maximum output current requirement. The losses in the MOSFETs have HA3嘉泰姆

two components: conduction loss and transition loss. For the upper and lower MOSFET, the HA3嘉泰姆

losses are approximately given by the following :
PUPPER=IOUT(1+TC)(RDS(ON))D+(0.5)(IOUT)(VIN)(tSW)FS
PLOWER=IOUT(1+TC)(RDS(ON))(1-D)
Where I is the load current OUT TC is the temperature dependency of RDS(ON) F is the switchingHA3嘉泰姆

 frequency St is the switching interval sw D is the duty cycle Note that both MOSFETs have HA3嘉泰姆

conduction losses while the upper MOSFET include an additional transition loss.The switching HA3嘉泰姆

internal, tsw, is a function of the reverse transfer capacitance CRSS. The (1+TC) term is to HA3嘉泰姆

factor in the temperature depen-dency of the RDS(ON) and can be extracted from the “RDS(ON)
vs Temperature” curve of the power MOSFET.
Short Circuit Protection
The CXSD6289 provides a simple short circuit protection function, and it is not easy to predict itsHA3嘉泰姆

 performance, since many factors can affect how well it works. Therefore, the limitations and HA3嘉泰姆

suggestions of this method must be pro-vided for users to understand how to work it well.TheHA3嘉泰姆

 short circuit protection was not designed to work for the output in initial short condition. In this HA3嘉泰姆

case, the short circuit protection may not work, and damage the MOSFETs. If the circuit still works,HA3嘉泰姆

 remove the short can cause an inductive kick on the phase pin, and it may damage the IC and HA3嘉泰姆

MOSFETs.  If the resistance of the short is not low enough to cause protection, the regulator willHA3嘉泰姆

 work as the load has
HA3嘉泰姆

Short Circuit Protection (Cont.)
increased, and continue to regulate up until the MOSFETs is damaged. The resistance of the shortHA3嘉泰姆

 should include wiring, PCB traces, contact resistances, and all of the return paths.The higher duty HA3嘉泰姆

cycle will give a higher COMP voltage level, and it is easy to touch the trip point. The compensa-
tion components also affect the response of COMP voltage; smaller caps may give a faster response.
The output current has faster rising time during short;the COMP pin will have a sharp rise. However,HA3嘉泰姆

 if the cur-rent rises too fast, it may cause a false trip. The output capacitance and its ESR can affectHA3嘉泰姆

 the rising time of the current during short.
HA3嘉泰姆

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5HA3嘉泰姆

600HA3嘉泰姆

CXSD62103HA3嘉泰姆

QFN4x4-24HA3嘉泰姆

VMHA3嘉泰姆

2HA3嘉泰姆

1HA3嘉泰姆

50HA3嘉泰姆

4.5HA3嘉泰姆

13.2HA3嘉泰姆

0.6HA3嘉泰姆

5~12HA3嘉泰姆

5000HA3嘉泰姆

CXSD62104HA3嘉泰姆

TQFN4x4-24HA3嘉泰姆

COTHA3嘉泰姆

1HA3嘉泰姆

2HA3嘉泰姆

15HA3嘉泰姆

6HA3嘉泰姆

25HA3嘉泰姆

2HA3嘉泰姆

NHA3嘉泰姆

550HA3嘉泰姆

CXSD62105HA3嘉泰姆

TQFN4x4-24HA3嘉泰姆

COTHA3嘉泰姆

1HA3嘉泰姆

2HA3嘉泰姆

15HA3嘉泰姆

6HA3嘉泰姆

25HA3嘉泰姆

2HA3嘉泰姆

NHA3嘉泰姆

550HA3嘉泰姆

CXSD62106|AHA3嘉泰姆

TQFN4x4-4HA3嘉泰姆

TQFN3x3-20HA3嘉泰姆

COTHA3嘉泰姆

1HA3嘉泰姆

2HA3嘉泰姆

20HA3嘉泰姆

3HA3嘉泰姆

28HA3嘉泰姆

0.75HA3嘉泰姆

5HA3嘉泰姆

800HA3嘉泰姆

CXSD62107HA3嘉泰姆

TQFN3x3-16HA3嘉泰姆

COTHA3嘉泰姆

1HA3嘉泰姆

1HA3嘉泰姆

20HA3嘉泰姆

1.8HA3嘉泰姆

28HA3嘉泰姆

0.75HA3嘉泰姆

5HA3嘉泰姆

400HA3嘉泰姆

CXSD62108HA3嘉泰姆

QFN3.5x3.5-14HA3嘉泰姆

TQFN3x3-16HA3嘉泰姆

COTHA3嘉泰姆

1HA3嘉泰姆

1HA3嘉泰姆

20HA3嘉泰姆

1.8HA3嘉泰姆

28HA3嘉泰姆

0.75HA3嘉泰姆

5HA3嘉泰姆

400HA3嘉泰姆

CXSD62109HA3嘉泰姆

TQFN3x3-16HA3嘉泰姆

COTHA3嘉泰姆

1HA3嘉泰姆

2HA3嘉泰姆

20HA3嘉泰姆

1.8HA3嘉泰姆

28HA3嘉泰姆

0.75HA3嘉泰姆

5HA3嘉泰姆

400HA3嘉泰姆

CXSD62110HA3嘉泰姆

QFN3x3-20HA3嘉泰姆

TQFN3x3-16HA3嘉泰姆

COTHA3嘉泰姆

1HA3嘉泰姆

2HA3嘉泰姆

20HA3嘉泰姆

3HA3嘉泰姆

28HA3嘉泰姆

1.8|1.5|0.5HA3嘉泰姆

5HA3嘉泰姆

740HA3嘉泰姆

CXSD62111HA3嘉泰姆

TQFN4x4-24HA3嘉泰姆

|QFN3x3-20HA3嘉泰姆

CMHA3嘉泰姆

1HA3嘉泰姆

2HA3嘉泰姆

15HA3嘉泰姆

5HA3嘉泰姆

28HA3嘉泰姆

0.5HA3嘉泰姆

NHA3嘉泰姆

3000HA3嘉泰姆

CXSD62112HA3嘉泰姆

TDFN3x3-10HA3嘉泰姆

COTHA3嘉泰姆

1HA3嘉泰姆

1HA3嘉泰姆

20HA3嘉泰姆

1.8HA3嘉泰姆

28HA3嘉泰姆

0.5HA3嘉泰姆

5HA3嘉泰姆

250HA3嘉泰姆

CXSD62113|CHA3嘉泰姆

TQFN3x3-20HA3嘉泰姆

COTHA3嘉泰姆

1HA3嘉泰姆

2HA3嘉泰姆

15HA3嘉泰姆

6HA3嘉泰姆

25HA3嘉泰姆

2HA3嘉泰姆

NHA3嘉泰姆

550HA3嘉泰姆

CXSD62113EHA3嘉泰姆

TQFN 3x3 20HA3嘉泰姆

COTHA3嘉泰姆

2HA3嘉泰姆

2HA3嘉泰姆

11HA3嘉泰姆

6HA3嘉泰姆

25HA3嘉泰姆

2HA3嘉泰姆

NHA3嘉泰姆

550HA3嘉泰姆

CXSD62114HA3嘉泰姆

TQFN3x3-20HA3嘉泰姆

COTHA3嘉泰姆

2HA3嘉泰姆

2HA3嘉泰姆

11HA3嘉泰姆

5.5HA3嘉泰姆

25HA3嘉泰姆

2HA3嘉泰姆

NHA3嘉泰姆

280HA3嘉泰姆

CXSD62115HA3嘉泰姆

QFN4x4-24HA3嘉泰姆

VMHA3嘉泰姆

2HA3嘉泰姆

1HA3嘉泰姆

60HA3嘉泰姆

3.1HA3嘉泰姆

13.2HA3嘉泰姆

0.85HA3嘉泰姆

12HA3嘉泰姆

5000HA3嘉泰姆

CXSD62116A|B|CHA3嘉泰姆

SOP-8PHA3嘉泰姆

VMHA3嘉泰姆

1HA3嘉泰姆

1HA3嘉泰姆

20HA3嘉泰姆

2.9HA3嘉泰姆

13.2HA3嘉泰姆

0.8HA3嘉泰姆

12HA3嘉泰姆

16000HA3嘉泰姆

CXSD62117HA3嘉泰姆

SOP-20HA3嘉泰姆

VMHA3嘉泰姆

2HA3嘉泰姆

2HA3嘉泰姆

30HA3嘉泰姆

10HA3嘉泰姆

13.2HA3嘉泰姆

1HA3嘉泰姆

12HA3嘉泰姆

5000HA3嘉泰姆

CXSD62118HA3嘉泰姆

TDFN3x3-10HA3嘉泰姆

COTHA3嘉泰姆

1HA3嘉泰姆

1HA3嘉泰姆

25HA3嘉泰姆

1.8HA3嘉泰姆

28HA3嘉泰姆

0.7HA3嘉泰姆

5HA3嘉泰姆

250HA3嘉泰姆

CXSD62119HA3嘉泰姆

TQFN3x3-20HA3嘉泰姆

COTHA3嘉泰姆

2HA3嘉泰姆

1HA3嘉泰姆

40HA3嘉泰姆

1.8HA3嘉泰姆

25HA3嘉泰姆

REFIN SettingHA3嘉泰姆

5HA3嘉泰姆

700HA3嘉泰姆

CXSD62120HA3嘉泰姆

QFN 3x3 20HA3嘉泰姆

TQFN 3x3 16HA3嘉泰姆

COTHA3嘉泰姆

1HA3嘉泰姆

2HA3嘉泰姆

20HA3嘉泰姆

3HA3嘉泰姆

28HA3嘉泰姆

1.8|1.5 1.35|1.2 0.5HA3嘉泰姆

5HA3嘉泰姆

800HA3嘉泰姆

CXSD62121AHA3嘉泰姆

TQFN3x3 20HA3嘉泰姆

COTHA3嘉泰姆

1HA3嘉泰姆

2HA3嘉泰姆

15HA3嘉泰姆

3HA3嘉泰姆

28HA3嘉泰姆

0.75HA3嘉泰姆

5HA3嘉泰姆

220HA3嘉泰姆

CXSD62121BHA3嘉泰姆

TQFN3x3 20HA3嘉泰姆

COTHA3嘉泰姆

1HA3嘉泰姆

2HA3嘉泰姆

15HA3嘉泰姆

3HA3嘉泰姆

28HA3嘉泰姆

0.75HA3嘉泰姆

5HA3嘉泰姆

220HA3嘉泰姆

CXSD62121HA3嘉泰姆

TQFN3x3-20HA3嘉泰姆

COTHA3嘉泰姆

1HA3嘉泰姆

2HA3嘉泰姆

20HA3嘉泰姆

3HA3嘉泰姆

28HA3嘉泰姆

0.75HA3嘉泰姆

5HA3嘉泰姆

180 HA3嘉泰姆


HA3嘉泰姆

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