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首页 > 产品中心 > 电源管理 > DC降压型芯片 > Buck降压型芯片 >CXSD6275两相PWM控制芯片它为图形卡应用中的高级图形微处理器提供了一个精确的电压调节系统功率MOSFET驱动器
CXSD6275两相PWM控制芯片它为图形卡应用中的高级图形微处理器提供了一个精确的电压调节系统功率MOSFET驱动器
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CXSD6275是一种两相PWM控制芯片,它为图形卡应用中的高级图形微处理器提供了一个精确的电压调节系统。功率MOSFET驱动器与控制器的集成
并减少了外部部件的数量,为节约成本和空间提供了电源管理解决方案。
CXSD6275采用电压模式的脉宽调制结构,以固定频率工作,提供出色的负载瞬态响应。该装置利用电感器dcr两端的电压进行电流传感。载重线
电压定位(下垂)、通道电流平衡和过电流保护通过连续电感DCR电流传感实现。

CXSD6275两相PWM控制芯片它为图形卡应用中的高级图形微处理器提供了一个精确的电压调节系统功率MOSFET驱动器
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产品简介

目录Vpu嘉泰姆

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

一,产品概述(General Description)    Vpu嘉泰姆


            The CXSD6275, two-phase PWM control IC, provides a precision voltage regulation system for advanced graphic microprocessors in graphics card applications. The integration of power MOSFET drivers into the controllerVpu嘉泰姆
IC and reduces the number of external parts for a cost and space saving power management solution.Vpu嘉泰姆
       The CXSD6275 uses a voltage-mode PWM architecture,operating with fixed-frequency, to provides excellent load transient response. The device uses the voltage across the DCRs of the inductors for current sensing. Load lineVpu嘉泰姆
voltage positioning (DROOP), channel-current balance,and over-current protection are accomplished through continuous inductor DCR current sensing.Vpu嘉泰姆
The MODE pin programs single- or two- phase operation.When IC operates in two-phase mode normally, it can transfer two-phase mode to single-phase mode at liberty.Nevertheless, once operates in single-phase mode, the operation mode is latched. It is required to toggle SS,REFIN/EN or 5VCC pin to reset the IC. Such feature of the MODE pin makes the CXSD6275 ideally suitable for dualVpu嘉泰姆
power input applications, such as PCIE interfaced graphic cards.This control IC‘s protection features include a set of sophisticated over-temperature, over-voltage, under-voltage, and over-current protections. Over-voltage re-sults in the converter turning the lower MOSFETs on to clamp the rising output voltage and protects theVpu嘉泰姆
microprocessor. The over-current protection level is set through external resistors. The device also provides a power-on-reset function and a programmable soft-startVpu嘉泰姆
to prevent wrong operation and limit the input surge current during power-on or start-up.Vpu嘉泰姆
       The CXSD6275 is available in a QFN4x4-24A packageVpu嘉泰姆
二.产品特点(Features)Vpu嘉泰姆


1.)Voltage-Mode Operation with Current SharingVpu嘉泰姆
       Adjustable Feedback CompensationVpu嘉泰姆
       Fast Load Transient ResponseVpu嘉泰姆
2.)Operate with 8V~13.2VCC Supply VoltageVpu嘉泰姆
3.)Selectable External or Internal 0.6V ReferenceVpu嘉泰姆
     ±1.5% Accuracy Over TemperatureVpu嘉泰姆
4.)Support Single- and Two-Phase OperationsVpu嘉泰姆
5.)5VCC and Buffered Reference OutputsVpu嘉泰姆
6.)8~12V Gate Drivers with Internal Bootstrap DiodeVpu嘉泰姆
7.)Lossless Inductor DCR Current SensingVpu嘉泰姆
8.)Selectable Operation FrequencyVpu嘉泰姆
      150k/300k/400kHz per PhaseVpu嘉泰姆
9.)Power-OK Indicator OutputVpu嘉泰姆
      Regulated 1.5V on REFOUT/POKVpu嘉泰姆
10.)Adjustable Over-Current Protection (OCP)Vpu嘉泰姆
11.)Accurate Load Line (DROOP) ProgrammingVpu嘉泰姆
12.)Adjustable Soft-StartVpu嘉泰姆
13.)Over-Voltage Protection (OVP)Vpu嘉泰姆
14.)Under-Voltage Protection (UVP)Vpu嘉泰姆
15.)Over-Temperature Protection (OTP)Vpu嘉泰姆
16.)QFN4x4 24-Lead Package (QFN4x4-24A)Vpu嘉泰姆
17.)Lead Free and Green Devices Available (RoHS Compliant)Vpu嘉泰姆
三,应用范围 (Applications)Vpu嘉泰姆


Graphics Card GPU Core Power SupplyVpu嘉泰姆

Motherboard Chipset or DDR SDRAM Core PowerSupplyVpu嘉泰姆
On-board High Power PWM Converter with Out-Vpu嘉泰姆

put Current up to 60AVpu嘉泰姆
四.下载产品资料PDF文档 Vpu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Vpu嘉泰姆

 QQ截图20160419174301.jpgVpu嘉泰姆

五,产品封装图 (Package)Vpu嘉泰姆
Vpu嘉泰姆
FUNCTIONVpu嘉泰姆

PINVpu嘉泰姆

FUNCTIONVpu嘉泰姆

NO.Vpu嘉泰姆

NAMEVpu嘉泰姆

1Vpu嘉泰姆

UGATE1Vpu嘉泰姆

High-side Gate Driver Output for channel 1. Connect this pin to the gate of high-side MOSFET.Vpu嘉泰姆

This pin is monitored by the adaptive shoot-through protection circuitry to determine whenVpu嘉泰姆

 the high-side MOSFET has turned off.Vpu嘉泰姆

2Vpu嘉泰姆

BOOT1Vpu嘉泰姆

Bootstrap Supply for the floating high-side gate driver of channel 1. Connect the BootstrapVpu嘉泰姆

capacitor between the BOOT1 pin and the PHASE1 pin to form a bootstrap circuit. The Vpu嘉泰姆

bootstrap capacitor provides the charge to turn on the high-side MOSFET. Typical values for CBOOT ranged from 0.1μF to 1μF. Ensure that CBOOT is placed near the IC.Vpu嘉泰姆

3Vpu嘉泰姆

5VCCVpu嘉泰姆

Internal Regulator Output. This is the output pin of the linear regulator, which is converting power from VCC and provides output current up to 20mA minimums for internal bias and external usage.Vpu嘉泰姆

4Vpu嘉泰姆

AGNDVpu嘉泰姆

Signal Ground for the IC. All voltage levels are measured with respect to this pin. Tie this pin to the ground island/plane through the lowest impedance connection available.Vpu嘉泰姆

5Vpu嘉泰姆

MODEVpu嘉泰姆

Operation Phase Selection Input. Pulling this pin lower than 0.64V sets two-phase operation with both channels enabled. Pulling this pin higher than 0.8V sets single-phase operation with the channel 2 disabled. Once operating in single-phase mode, the operation mode is latched. It is required to toggle SS, REFIN/EN, or 5VCC pin to reset the IC.Vpu嘉泰姆

6Vpu嘉泰姆

CSP1Vpu嘉泰姆

Positive Input of current sensing Amplifier for channel 1. This pin combined with CSN1 senses the inductor current through an RC network.Vpu嘉泰姆

7Vpu嘉泰姆

CSN1Vpu嘉泰姆

Negative Input of current sensing amplifier for channel 1. This pin combined with CSP1 senses the inductor current through an RC network.Vpu嘉泰姆

8Vpu嘉泰姆

CSN2Vpu嘉泰姆

Negative Input of current sensing amplifier for channel 2. This pin combined with CSP2 senses the inductor current through an RC network.Vpu嘉泰姆

9Vpu嘉泰姆

CSP2Vpu嘉泰姆

Positive Input of current sensing Amplifier for Channel 2. This pin combined with CSN2 senses the inductor current through an RC network.Vpu嘉泰姆

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PINVpu嘉泰姆

FUNCTIONVpu嘉泰姆

NO.Vpu嘉泰姆

NAMEVpu嘉泰姆

10Vpu嘉泰姆

DROOPVpu嘉泰姆

Load Line (droop) Setting. Connect a resistor between this pin and AGND to set the droop. AVpu嘉泰姆
sourcing current, proportional to output current is present on the DROOP pin. The droop scaleVpu嘉泰姆
factor is set by the resistors (connected with CSP1, CSP2, and DROOP), resistance of the outputVpu嘉泰姆
inductors, and the internal voltage divider with the ratio of 5%.Vpu嘉泰姆

11Vpu嘉泰姆

RTVpu嘉泰姆

Operating Frequency Setting. The three-level input pin sets the operating frequency for eachVpu嘉泰姆
channel.Vpu嘉泰姆

RTVpu嘉泰姆

Operating Frequency (kHz)Vpu嘉泰姆

GNDVpu嘉泰姆

150Vpu嘉泰姆

FloatingVpu嘉泰姆

300Vpu嘉泰姆

5VCCVpu嘉泰姆

400Vpu嘉泰姆

12Vpu嘉泰姆

COMPVpu嘉泰姆

Error Amplifier Output. Connect the compensation network between COMP, FB, and VOUT for TypeVpu嘉泰姆
2 or Type 3 feedback compensation.Vpu嘉泰姆

13Vpu嘉泰姆

FBVpu嘉泰姆

Feedback Voltage. This pin is the inverting input to the error comparator. A resistor divider fromVpu嘉泰姆
the output to the AGND is used to set the regulation voltage.Vpu嘉泰姆

14Vpu嘉泰姆

SSVpu嘉泰姆

Soft-start Current Output. Connect a capacitor from this pin to the AGND to set the soft-startVpu嘉泰姆
interval. Pulling the voltage on this pin below 0.5V causes COMP to pull low and then shuts off theVpu嘉泰姆
output.Vpu嘉泰姆

15Vpu嘉泰姆

REFIN/ENVpu嘉泰姆

External Reference and Enable Input. The IC uses the voltage (VREFIN/EN) as reference voltage ofVpu嘉泰姆
the converter with soft-start control. If this pin is driven by an external voltage ranged from 0.4V toVpu嘉泰姆
2V. The IC is disabled if the voltage is below 0.4V (typical). If external reference is not available,Vpu嘉泰姆
then connect this pin to 5VCC for internal 0.6V reference.Vpu嘉泰姆

16Vpu嘉泰姆

REFOUT/POVpu嘉泰姆
KVpu嘉泰姆

Power-OK and 1.5V Reference Output. This pin is a reference output used to indicate the statusVpu嘉泰姆
of the voltages on SS pin and FB pin. REFOUT/POK provides 1.5V reference if VFB> 87.5% ofVpu嘉泰姆
reference (VR).Vpu嘉泰姆

17Vpu嘉泰姆

BOOT2Vpu嘉泰姆

Bootstrap Supply for the floating high-side gate driver of channel 2. Connect the BootstrapVpu嘉泰姆
capacitor between the BOOT2 pin and the PHASE2 pin to form a bootstrap circuit. The bootstrapVpu嘉泰姆
capacitor provides the charge to turn on the high-side MOSFET. Typical values for CBOOT rangeVpu嘉泰姆
from 0.1μF to 1μF. Ensure that CBOOT is placed near the IC.Vpu嘉泰姆

18Vpu嘉泰姆

UGATE2Vpu嘉泰姆

High-side Gate Driver Output for Channel 2. Connect this pin to the gate of high-side MOSFET.Vpu嘉泰姆
This pin is monitored by the adaptive shoot-through protection circuitry to determine when theVpu嘉泰姆
high-side MOSFET has turned off.Vpu嘉泰姆

19Vpu嘉泰姆

PHASE2Vpu嘉泰姆

Switch Node for Channel 2. Connect this pin to the source of high-side MOSFET and the drain ofVpu嘉泰姆
the low-side MOSFET. This pin is used as sink for UGATE2 driver. This pin is also monitored byVpu嘉泰姆
the adaptive shoot-through protection circuitry to determine when the high-side MOSFET hasVpu嘉泰姆
turned off. An Schottky diode between this pin and the ground is recommended to reduceVpu嘉泰姆
negative transient voltage that is common in a power supply system.Vpu嘉泰姆

20Vpu嘉泰姆

LGATE2Vpu嘉泰姆

Low-side Gate Driver Output for Channel 2. Connect this pin to the gate of low-side MOSFET.Vpu嘉泰姆
This pin is monitored by the adaptive shoot-through protection circuitry to determine when theVpu嘉泰姆
low-side MOSFET has turned off.Vpu嘉泰姆

21Vpu嘉泰姆

VCCDRVVpu嘉泰姆

Drive for External Linear Regulator. This pin is the drive output for the external linear regulator.Vpu嘉泰姆
Connect this pin to base/gate of NPN/NMOS transistor as the pass element.Vpu嘉泰姆

22Vpu嘉泰姆

VCCVpu嘉泰姆

Supply Voltage. This pin along with VCCDRV pin and external pass element provides 8.5VVpu嘉泰姆
regulated bias supply, low-side gate drivers, and the bootstrap circuit for high-side drivers. This pinVpu嘉泰姆
can receive a well-decoupled 8V~13.2V supply voltage alone if the VCCDRV is left open. EnsureVpu嘉泰姆
that this pin is bypassed by a ceramic capacitor next to the pin.Vpu嘉泰姆

23Vpu嘉泰姆

LGATE1Vpu嘉泰姆

Low-side Gate Driver Output for Channel 1. Connect this pin to the gate of low-side MOSFET.Vpu嘉泰姆
This pin is monitored by the adaptive shoot-through protection circuitry to determine when theVpu嘉泰姆
low-side MOSFET has turned off.Vpu嘉泰姆

PINVpu嘉泰姆

FUNCTIONVpu嘉泰姆

NO.Vpu嘉泰姆

NAMEVpu嘉泰姆

24Vpu嘉泰姆

PHASE1Vpu嘉泰姆

Switch Node for Channel 1. Connect this pin to the source of high-side MOSFET and the drain of the low-side MOSFET. This pin is used as sink for UGATT1 driver. This pin is also monitored by the adaptive shoot-through protection circuitry to determine when the high-side MOSFET has turned off. An Schottky diode between this pin and the ground is recommended to reduce negative transient voltage, which is common in a power supply system.Vpu嘉泰姆

25Vpu嘉泰姆

PGNDVpu嘉泰姆

Power Ground for the low-side gate drivers. Connect this pin to the source of low-side MOSFETs. This pin is used as sink for LGATE1 and LGATE2 drivers.Vpu嘉泰姆

六.电路原理图Vpu嘉泰姆


blob.pngVpu嘉泰姆

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tectuVpu嘉泰姆

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QuiescentVpu嘉泰姆

CurrentVpu嘉泰姆

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maxVpu嘉泰姆

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30Vpu嘉泰姆

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0.9Vpu嘉泰姆

12     Vpu嘉泰姆

8000Vpu嘉泰姆

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3000Vpu嘉泰姆

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0.015Vpu嘉泰姆

1.4Vpu嘉泰姆

6.5Vpu嘉泰姆

-Vpu嘉泰姆

5Vpu嘉泰姆

1800Vpu嘉泰姆

CXSD6285Vpu嘉泰姆

TSSOP-24PVpu嘉泰姆

VMVpu嘉泰姆

1Vpu嘉泰姆

2Vpu嘉泰姆

20Vpu嘉泰姆

2.97Vpu嘉泰姆

5.5Vpu嘉泰姆

0.8Vpu嘉泰姆

5~12Vpu嘉泰姆

5000Vpu嘉泰姆

CXSD6286Vpu嘉泰姆

SOP-14Vpu嘉泰姆

VMVpu嘉泰姆

1Vpu嘉泰姆

1Vpu嘉泰姆

10Vpu嘉泰姆

5Vpu嘉泰姆

13.2Vpu嘉泰姆

0.8Vpu嘉泰姆

12Vpu嘉泰姆

3000Vpu嘉泰姆

CXSD6287Vpu嘉泰姆

SOP-8-P|DIP-8Vpu嘉泰姆

VMVpu嘉泰姆

1Vpu嘉泰姆

1Vpu嘉泰姆

30Vpu嘉泰姆

2.9Vpu嘉泰姆

13.2Vpu嘉泰姆

1.2Vpu嘉泰姆

12Vpu嘉泰姆

3000Vpu嘉泰姆

CXSD6288Vpu嘉泰姆

SSOP28Vpu嘉泰姆

QFN4x4-24Vpu嘉泰姆

VMVpu嘉泰姆

1Vpu嘉泰姆

2Vpu嘉泰姆

20Vpu嘉泰姆

5Vpu嘉泰姆

24Vpu嘉泰姆

0.9Vpu嘉泰姆

5Vpu嘉泰姆

1200Vpu嘉泰姆

CXSD6289Vpu嘉泰姆

SOP-20Vpu嘉泰姆

VMVpu嘉泰姆

1Vpu嘉泰姆

2Vpu嘉泰姆

20Vpu嘉泰姆

2.2Vpu嘉泰姆

13.2Vpu嘉泰姆

0.6Vpu嘉泰姆

5~12Vpu嘉泰姆

4000Vpu嘉泰姆

CXSD6290Vpu嘉泰姆

SOP8|DFN3x3-10Vpu嘉泰姆

VMVpu嘉泰姆

1Vpu嘉泰姆

2Vpu嘉泰姆

-Vpu嘉泰姆

-Vpu嘉泰姆

-Vpu嘉泰姆

-Vpu嘉泰姆

5~12Vpu嘉泰姆

550Vpu嘉泰姆

CXSD6291HCVpu嘉泰姆

DIP8|SOP-8Vpu嘉泰姆

VMVpu嘉泰姆

1Vpu嘉泰姆

1Vpu嘉泰姆

1Vpu嘉泰姆

1.2Vpu嘉泰姆

9Vpu嘉泰姆

24Vpu嘉泰姆

5Vpu嘉泰姆

9 ~ 24Vpu嘉泰姆

CXSD6292Vpu嘉泰姆

SSOP16Vpu嘉泰姆

QFN4x4-16Vpu嘉泰姆

TQFN3x3-16Vpu嘉泰姆

VMVpu嘉泰姆

1Vpu嘉泰姆

1Vpu嘉泰姆

25Vpu嘉泰姆

3Vpu嘉泰姆

25Vpu嘉泰姆

0.6Vpu嘉泰姆

5Vpu嘉泰姆

1700Vpu嘉泰姆

CXSD6293Vpu嘉泰姆

TDFN3x3-10Vpu嘉泰姆

COTVpu嘉泰姆

1Vpu嘉泰姆

1Vpu嘉泰姆

25Vpu嘉泰姆

3Vpu嘉泰姆

25Vpu嘉泰姆

0.5Vpu嘉泰姆

5Vpu嘉泰姆

350Vpu嘉泰姆

CXSD6294Vpu嘉泰姆

QFN4x4-24Vpu嘉泰姆

CMVpu嘉泰姆

2Vpu嘉泰姆

1Vpu嘉泰姆

40Vpu嘉泰姆

4.5Vpu嘉泰姆

13.2Vpu嘉泰姆

0.6Vpu嘉泰姆

5~12Vpu嘉泰姆

4000Vpu嘉泰姆

CXSD6295Vpu嘉泰姆

SOP8PVpu嘉泰姆

TDFN3x3-10Vpu嘉泰姆

VMVpu嘉泰姆

1Vpu嘉泰姆

1Vpu嘉泰姆

20Vpu嘉泰姆

3Vpu嘉泰姆

13.2Vpu嘉泰姆

0.8Vpu嘉泰姆

5~12Vpu嘉泰姆

2500Vpu嘉泰姆

CXSD6296A|B|C|DVpu嘉泰姆

SOP8PVpu嘉泰姆

VMVpu嘉泰姆

1Vpu嘉泰姆

1Vpu嘉泰姆

25Vpu嘉泰姆

3Vpu嘉泰姆

13.2Vpu嘉泰姆

0.6|0.8Vpu嘉泰姆

5~12Vpu嘉泰姆

1200Vpu嘉泰姆

CXSD6297Vpu嘉泰姆

TDFN3x3-10Vpu嘉泰姆

VMVpu嘉泰姆

1Vpu嘉泰姆

1Vpu嘉泰姆

25Vpu嘉泰姆

4Vpu嘉泰姆

13.2Vpu嘉泰姆

0.8Vpu嘉泰姆

5~12Vpu嘉泰姆

2000Vpu嘉泰姆

CXSD6298Vpu嘉泰姆

TDFN3x3-10Vpu嘉泰姆

COTVpu嘉泰姆

1Vpu嘉泰姆

1Vpu嘉泰姆

25Vpu嘉泰姆

4.5Vpu嘉泰姆

25Vpu嘉泰姆

0.6Vpu嘉泰姆

5~12Vpu嘉泰姆

80Vpu嘉泰姆

CXSD6299|AVpu嘉泰姆

SOP-8PVpu嘉泰姆

VMVpu嘉泰姆

1Vpu嘉泰姆

1Vpu嘉泰姆

25Vpu嘉泰姆

4.5Vpu嘉泰姆

13.2Vpu嘉泰姆

0.8Vpu嘉泰姆

5~12Vpu嘉泰姆

16000Vpu嘉泰姆

CXSD62100Vpu嘉泰姆

TQFN3x3-10Vpu嘉泰姆

VMVpu嘉泰姆

1Vpu嘉泰姆

1Vpu嘉泰姆

25Vpu嘉泰姆

4.5Vpu嘉泰姆

13.2Vpu嘉泰姆

0.6Vpu嘉泰姆

5~12Vpu嘉泰姆

2500Vpu嘉泰姆

CXSD62101|LVpu嘉泰姆

TDFN3x3-10Vpu嘉泰姆

COTVpu嘉泰姆

1Vpu嘉泰姆

1Vpu嘉泰姆

30Vpu嘉泰姆

3Vpu嘉泰姆

25Vpu嘉泰姆

0.8Vpu嘉泰姆

5~12Vpu嘉泰姆

2000Vpu嘉泰姆

CXSD62102Vpu嘉泰姆

TQFN3x3-16Vpu嘉泰姆

COTVpu嘉泰姆

1Vpu嘉泰姆

1Vpu嘉泰姆

30Vpu嘉泰姆

1.8Vpu嘉泰姆

28Vpu嘉泰姆

0.6Vpu嘉泰姆

5Vpu嘉泰姆

600Vpu嘉泰姆

CXSD62102AVpu嘉泰姆

TQFN 3x3 16Vpu嘉泰姆

COTVpu嘉泰姆

1Vpu嘉泰姆

1Vpu嘉泰姆

30Vpu嘉泰姆

1.8Vpu嘉泰姆

28Vpu嘉泰姆

0.6Vpu嘉泰姆

5Vpu嘉泰姆

600Vpu嘉泰姆

CXSD62103Vpu嘉泰姆

QFN4x4-24Vpu嘉泰姆

VMVpu嘉泰姆

2Vpu嘉泰姆

1Vpu嘉泰姆

50Vpu嘉泰姆

4.5Vpu嘉泰姆

13.2Vpu嘉泰姆

0.6Vpu嘉泰姆

5~12Vpu嘉泰姆

5000Vpu嘉泰姆

CXSD62104Vpu嘉泰姆

TQFN4x4-24Vpu嘉泰姆

COTVpu嘉泰姆

1Vpu嘉泰姆

2Vpu嘉泰姆

15Vpu嘉泰姆

6Vpu嘉泰姆

25Vpu嘉泰姆

2Vpu嘉泰姆

NVpu嘉泰姆

550Vpu嘉泰姆

CXSD62105Vpu嘉泰姆

TQFN4x4-24Vpu嘉泰姆

COTVpu嘉泰姆

1Vpu嘉泰姆

2Vpu嘉泰姆

15Vpu嘉泰姆

6Vpu嘉泰姆

25Vpu嘉泰姆

2Vpu嘉泰姆

NVpu嘉泰姆

550Vpu嘉泰姆

CXSD62106|AVpu嘉泰姆

TQFN4x4-4Vpu嘉泰姆

TQFN3x3-20Vpu嘉泰姆

COTVpu嘉泰姆

1Vpu嘉泰姆

2Vpu嘉泰姆

20Vpu嘉泰姆

3Vpu嘉泰姆

28Vpu嘉泰姆

0.75Vpu嘉泰姆

5Vpu嘉泰姆

800Vpu嘉泰姆

CXSD62107Vpu嘉泰姆

TQFN3x3-16Vpu嘉泰姆

COTVpu嘉泰姆

1Vpu嘉泰姆

1Vpu嘉泰姆

20Vpu嘉泰姆

1.8Vpu嘉泰姆

28Vpu嘉泰姆

0.75Vpu嘉泰姆

5Vpu嘉泰姆

400Vpu嘉泰姆

CXSD62108Vpu嘉泰姆

QFN3.5x3.5-14Vpu嘉泰姆

TQFN3x3-16Vpu嘉泰姆

COTVpu嘉泰姆

1Vpu嘉泰姆

1Vpu嘉泰姆

20Vpu嘉泰姆

1.8Vpu嘉泰姆

28Vpu嘉泰姆

0.75Vpu嘉泰姆

5Vpu嘉泰姆

400Vpu嘉泰姆

CXSD62109Vpu嘉泰姆

TQFN3x3-16Vpu嘉泰姆

COTVpu嘉泰姆

1Vpu嘉泰姆

2Vpu嘉泰姆

20Vpu嘉泰姆

1.8Vpu嘉泰姆

28Vpu嘉泰姆

0.75Vpu嘉泰姆

5Vpu嘉泰姆

400Vpu嘉泰姆

CXSD62110Vpu嘉泰姆

QFN3x3-20Vpu嘉泰姆

TQFN3x3-16Vpu嘉泰姆

COTVpu嘉泰姆

1Vpu嘉泰姆

2Vpu嘉泰姆

20Vpu嘉泰姆

3Vpu嘉泰姆

28Vpu嘉泰姆

1.8|1.5|0.5Vpu嘉泰姆

5Vpu嘉泰姆

740Vpu嘉泰姆

CXSD62111Vpu嘉泰姆

TQFN4x4-24Vpu嘉泰姆

|QFN3x3-20Vpu嘉泰姆

CMVpu嘉泰姆

1Vpu嘉泰姆

2Vpu嘉泰姆

15Vpu嘉泰姆

5Vpu嘉泰姆

28Vpu嘉泰姆

0.5Vpu嘉泰姆

NVpu嘉泰姆

3000Vpu嘉泰姆

CXSD62112Vpu嘉泰姆

TDFN3x3-10Vpu嘉泰姆

COTVpu嘉泰姆

1Vpu嘉泰姆

1Vpu嘉泰姆

20Vpu嘉泰姆

1.8Vpu嘉泰姆

28Vpu嘉泰姆

0.5Vpu嘉泰姆

5Vpu嘉泰姆

250Vpu嘉泰姆

CXSD62113|CVpu嘉泰姆

TQFN3x3-20Vpu嘉泰姆

COTVpu嘉泰姆

1Vpu嘉泰姆

2Vpu嘉泰姆

15Vpu嘉泰姆

6Vpu嘉泰姆

25Vpu嘉泰姆

2Vpu嘉泰姆

NVpu嘉泰姆

550Vpu嘉泰姆

CXSD62113EVpu嘉泰姆

TQFN 3x3 20Vpu嘉泰姆

COTVpu嘉泰姆

2Vpu嘉泰姆

2Vpu嘉泰姆

11Vpu嘉泰姆

6Vpu嘉泰姆

25Vpu嘉泰姆

2Vpu嘉泰姆

NVpu嘉泰姆

550Vpu嘉泰姆

CXSD62114Vpu嘉泰姆

TQFN3x3-20Vpu嘉泰姆

COTVpu嘉泰姆

2Vpu嘉泰姆

2Vpu嘉泰姆

11Vpu嘉泰姆

5.5Vpu嘉泰姆

25Vpu嘉泰姆

2Vpu嘉泰姆

NVpu嘉泰姆

280Vpu嘉泰姆

CXSD62115Vpu嘉泰姆

QFN4x4-24Vpu嘉泰姆

VMVpu嘉泰姆

2Vpu嘉泰姆

1Vpu嘉泰姆

60Vpu嘉泰姆

3.1Vpu嘉泰姆

13.2Vpu嘉泰姆

0.85Vpu嘉泰姆

12Vpu嘉泰姆

5000Vpu嘉泰姆

CXSD62116A|B|CVpu嘉泰姆

SOP-8PVpu嘉泰姆

VMVpu嘉泰姆

1Vpu嘉泰姆

1Vpu嘉泰姆

20Vpu嘉泰姆

2.9Vpu嘉泰姆

13.2Vpu嘉泰姆

0.8Vpu嘉泰姆

12Vpu嘉泰姆

16000Vpu嘉泰姆

CXSD62117Vpu嘉泰姆

SOP-20Vpu嘉泰姆

VMVpu嘉泰姆

2Vpu嘉泰姆

2Vpu嘉泰姆

30Vpu嘉泰姆

10Vpu嘉泰姆

13.2Vpu嘉泰姆

1Vpu嘉泰姆

12Vpu嘉泰姆

5000Vpu嘉泰姆

CXSD62118Vpu嘉泰姆

TDFN3x3-10Vpu嘉泰姆

COTVpu嘉泰姆

1Vpu嘉泰姆

1Vpu嘉泰姆

25Vpu嘉泰姆

1.8Vpu嘉泰姆

28Vpu嘉泰姆

0.7Vpu嘉泰姆

5Vpu嘉泰姆

250Vpu嘉泰姆

CXSD62119Vpu嘉泰姆

TQFN3x3-20Vpu嘉泰姆

COTVpu嘉泰姆

2Vpu嘉泰姆

1Vpu嘉泰姆

40Vpu嘉泰姆

1.8Vpu嘉泰姆

25Vpu嘉泰姆

REFIN SettingVpu嘉泰姆

5Vpu嘉泰姆

700Vpu嘉泰姆

CXSD62120Vpu嘉泰姆

QFN 3x3 20Vpu嘉泰姆

TQFN 3x3 16Vpu嘉泰姆

COTVpu嘉泰姆

1Vpu嘉泰姆

2Vpu嘉泰姆

20Vpu嘉泰姆

3Vpu嘉泰姆

28Vpu嘉泰姆

1.8|1.5 1.35|1.2 0.5Vpu嘉泰姆

5Vpu嘉泰姆

800Vpu嘉泰姆

CXSD62121AVpu嘉泰姆

TQFN3x3 20Vpu嘉泰姆

COTVpu嘉泰姆

1Vpu嘉泰姆

2Vpu嘉泰姆

15Vpu嘉泰姆

3Vpu嘉泰姆

28Vpu嘉泰姆

0.75Vpu嘉泰姆

5Vpu嘉泰姆

220Vpu嘉泰姆

CXSD62121BVpu嘉泰姆

TQFN3x3 20Vpu嘉泰姆

COTVpu嘉泰姆

1Vpu嘉泰姆

2Vpu嘉泰姆

15Vpu嘉泰姆

3Vpu嘉泰姆

28Vpu嘉泰姆

0.75Vpu嘉泰姆

5Vpu嘉泰姆

220Vpu嘉泰姆

CXSD62121Vpu嘉泰姆

TQFN3x3-20Vpu嘉泰姆

COTVpu嘉泰姆

1Vpu嘉泰姆

2Vpu嘉泰姆

20Vpu嘉泰姆

3Vpu嘉泰姆

28Vpu嘉泰姆

0.75Vpu嘉泰姆

5Vpu嘉泰姆

180      Vpu嘉泰姆

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