• [ CXSD61051 ]

样品申请

目录qcH嘉泰姆

1.产品概述                       2.产品特点qcH嘉泰姆
3.应用范围                       4.产品封装图qcH嘉泰姆
5.电路原理图                   6.产品PCB                   qcH嘉泰姆
7.产品BOM                      8.产品PDF文档 qcH嘉泰姆
9.功能概述                      10.相关产品qcH嘉泰姆

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一,产品概述(General Description)   qcH嘉泰姆

        The CXSD61051 is a synchronous step down regulator with CC control from a high voltage input supply. Operating with an input voltageqcH嘉泰姆
range of 8V ～ 30V, the CXSD61051 achieves 3.5A continuous output current with excellent load and line regulation. The switching  frequency is programmable from 100KHz to 500KHz and the synchronous architectureqcH嘉泰姆
provides for highly efficient designs. Current  mode operation provides fast transient response and eases loop stabilization.qcH嘉泰姆

         The CXSD61051 requires a minimum number of readily available standard external components. Other features include cable compensation programmable current limit and thermal shutdown.qcH嘉泰姆

        The CXSD61051 converters are available in the industry standard SOP8-PP packages       qcH嘉泰姆

二.产品特点(Features)qcH嘉泰姆

Wide Input Voltage Range: 8V ～ 30VqcH嘉泰姆

Up to 93% EfficiencyqcH嘉泰姆

Programmable Switching Frequency up to 500KHzqcH嘉泰姆

No Loop Compensation RequiredqcH嘉泰姆

CC/CV controlqcH嘉泰姆

Programmable CC CurrentqcH嘉泰姆

Thermal ShutdownqcH嘉泰姆

Available in SOP8-PP PackageqcH嘉泰姆

三,应用范围 (Applications) qcH嘉泰姆

Car Charger / AdaptorqcH嘉泰姆

LED DriverqcH嘉泰姆

Pre-Regulator for Linear RegulatorsqcH嘉泰姆

Distributed Power SystemsqcH嘉泰姆

Battery ChargerCar Charger / AdaptorqcH嘉泰姆

LED DriverqcH嘉泰姆

Pre-Regulator for Linear RegulatorsqcH嘉泰姆

Distributed Power SystemsqcH嘉泰姆

Battery ChargerqcH嘉泰姆

四,产品封装图 (Package)qcH嘉泰姆
qcH嘉泰姆

五,电路原理图qcH嘉泰姆

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六, 产品PCBqcH嘉泰姆
(略)qcH嘉泰姆
七.产品BOM  qcH嘉泰姆
  (略)qcH嘉泰姆
八.产品PDF文档 qcH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！qcH嘉泰姆

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九,功能概述qcH嘉泰姆

Application Information qcH嘉泰姆
The CXSD61051 operates by a constant frequency, current mode architecture. The output voltage is setqcH嘉泰姆
by an external divider returned to the FB pin. An error amplifier compares the divided output voltage withqcH嘉泰姆
a reference voltage of 1.21V and adjusts the peak inductor current accordingly. qcH嘉泰姆
Thermal ProtectionqcH嘉泰姆
The total power dissipation in CXSD61051 is limited by a thermal protection circuit. When the deviceqcH嘉泰姆
temperature rises to approximately +160°C, this circuit turns off the output, allowing the IC to cool. TheqcH嘉泰姆
thermal protection circuit can protect the device from being damaged by overheating in the event of faultqcH嘉泰姆
conditions. Continuously running the CXSD61051 into thermal shutdown degrades device reliability. qcH嘉泰姆
Current LimitqcH嘉泰姆
Current limit detection occurs during the off-time by monitoring the current through the low-side switchqcH嘉泰姆
using an external resistor, RLIM. The current limit value is defined by RLIM. If during the off-time theqcH嘉泰姆
current in the low-side switch exceeds the user defined current limit value, the next on-time cycle isqcH嘉泰姆
immediately terminated. Current sensing is achieved by comparing the voltage across the low side FETqcH嘉泰姆
with the voltage across the current limit set resistor RLIM. For example, the current limit value is 4.5A byqcH嘉泰姆
the RLIM =100K. The current limit value rises when the set resistor RLIM rises. The maximum outputqcH嘉泰姆
current is set by RLIM: RLIM (kΩ) = 1500 · IMAX (A) / RDS_PMOS (mΩ). qcH嘉泰姆
Oscillator FrequencyqcH嘉泰姆
The CXSD61051 oscillator frequency is set by a single external resistor connected between the RT pin andqcH嘉泰姆
the GND pin. The resistor should be located very close to the device and connected directly to the pinsqcH嘉泰姆
of the IC (RT and GND). An internal amplifier holds the RT pin at a fixed voltage typically 0.6V. TheqcH嘉泰姆
oscillator frequency rises when the resistor RT falls. To determine the timing resistance for a givenqcH嘉泰姆
switching frequency, use the equation below:qcH嘉泰姆
RT(kΩ)= 22000 /fOSC(kHz) qcH嘉泰姆
Setting Output VoltageqcH嘉泰姆
The output voltage is set with a resistor divider from the output node to the FB pin. It is recommended toqcH嘉泰姆
use divider resistors with 1% tolerance or better. To improve efficiency at very light loads consider usingqcH嘉泰姆
larger value resistors. If the values are too high the regulator is more susceptible to noise and voltageqcH嘉泰姆
errors from the FB input current are noticeable. For most applications, a resistor in the 10kΩ to 1MΩqcH嘉泰姆
range is suggested for R3. R2 is then given by:qcH嘉泰姆
R2 = R3 · [(VOUT / VREF) – 1]qcH嘉泰姆
where VREF is 1.21V.qcH嘉泰姆
Output Cable Resistance CompensationqcH嘉泰姆
To compensate for resistive voltage drop across the charger's output cable, the CXSD61051 integrates aqcH嘉泰姆
simple, user-programmable cable voltage drop compensation using the impedance at the FB pin.qcH嘉泰姆
Choose the proper feedback resistance values for cable compensation refer to the curve in Figure 1.qcH嘉泰姆
The delta VOUT voltage rises when the feedback resistance R3 value rises, use the equation belowqcH嘉泰姆
十,相关产品              更多同类产品......qcH嘉泰姆

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