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参数资料
| 型号: | MAX17409GTI+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 24/32页 |
| 文件大小: | 0K |
| 描述: | IC CTRLR NVIDIA CPU 28-TQFN |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| 系列: | Quick-PWM™ |
| 应用: | 处理器 |
| 电流 - 电源: | 1.5mA |
| 电源电压: | 4.5 V ~ 5.5 V |
| 工作温度: | -40°C ~ 105°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 28-WFQFN 裸露焊盘 |
| 供应商设备封装: | 28-TQFN-EP(4x4) |
| 包装: | 带卷 (TR) |
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�1-Phase� Quick-PWM� GPU� Controller�
�Shutdown�
�When� SHDN� goes� low,� the� MAX17409� enters� low-power�
�shutdown� mode.� PWRGD� is� pulled� low� immediately,�
�and� the� output� voltage� ramps� down� with� a� 1.56mV/μs�
�slew� rate:�
�Once� the� output� is� in� regulation� (the� first� on-time� is� trig-�
�gered)� and� the� PWRGD� blanking� time� expires,� the� con-�
�troller� tightens� the� OVP� threshold,� tracking� the� OVP�
�threshold� by� 300mV,� subject� to� a� minimum� OVP� thresh-�
�old� of� 0.8V.� The� controller� also� uses� the� fixed� 1.8V� OVP�
�t� TRAN� (� SHDN� )� =�
�V� OUT�
�(� 1� .� 56� mV� /� μs� )�
�threshold� during� soft-start� and� soft-shutdown.�
�When� the� OVP� circuit� detects� an� overvoltage� fault,� the�
�MAX17409� immediately� forces� DL� high� and� pulls� DH� low.�
�Slowly� discharging� the� output� capacitors� by� slewing� the�
�output� over� a� long� period� of� time� keeps� the� average�
�negative� inductor� current� low� (damped� response),�
�thereby� eliminating� the� negative� output-voltage� excur-�
�sion� that� occurs� when� the� controller� discharges� the� out-�
�put� quickly� by� permanently� turning� on� the� low-side�
�MOSFET� (underdamped� response).� This� eliminates� the�
�need� for� the� Schottky� diode� normally� connected�
�between� the� output� and� ground� to� clamp� the� negative�
�output-voltage� excursion.� After� the� controller� reaches�
�the� zero� target,� the� MAX17409� shuts� down� completely—�
�the� drivers� are� disabled� (DL� driven� high,� DH� pulled�
�low)—the� reference� turns� off,� and� the� supply� currents�
�drop� to� approximately� 1μA� (max).�
�When� a� fault� condition—output� UVLO� or� thermal� shut-�
�down—activates� the� shutdown� sequence,� the� protec-�
�tion� circuitry� sets� the� fault� latch� to� prevent� the� controller�
�from� restarting.� To� clear� the� fault� latch� and� reactivate�
�the� controller,� toggle� SHDN� or� cycle� V� CC� power� below�
�0.5V� typ.�
�Temperature� Comparator� (� VRHOT� )�
�The� MAX17409� also� features� an� independent� compara-�
�tor� with� an� accurate� threshold� (V� HOT� )� that� tracks� the�
�analog� supply� voltage� (V� HOT� =� 0.3V� CC� ).� This� makes� the�
�thermal� trip� threshold� independent� of� the� V� CC� supply�
�voltage� tolerance.� Use� a� resistor-� and� thermistor-divider�
�between� V� CC� and� GND� to� generate� a� voltage-regulator�
�overtemperature� monitor.� Place� the� thermistor� as� close�
�to� the� MOSFETs� and� inductors� as� possible.�
�Fault� Protection� (Latched)�
�Output� Overvoltage� (OVP)� Protection�
�The� OVP� circuit� is� designed� to� protect� the� processor�
�against� a� shorted� high-side� MOSFET� by� drawing� high�
�current� and� blowing� the� battery� fuse.� The� MAX17409�
�continuously� monitors� the� output� for� an� overvoltage� fault.�
�The� controller� detects� an� OVP� fault� if� the� output� voltage�
�exceeds� the� set� VID� DAC� voltage� by� more� than� 300mV,�
�subject� to� a� minimum� OVP� threshold� of� 0.8V.� During�
�pulse-skipping� operation� (SKIP� =� high),� the� controller�
�initially� sets� the� OVP� threshold� to� a� fixed� 1.8V� threshold.�
�This� action� turns� on� the� synchronous-rectifier� MOSFETs�
�with� 100%� duty� and,� in� turn,� rapidly� discharges� the� output�
�filter� capacitor� and� forces� the� output� low.� If� the� condition�
�that� caused� the� overvoltage� (such� as� a� shorted� high-side�
�MOSFET)� persists,� the� battery� fuse� blows.� Toggle� SHDN�
�or� cycle� the� V� CC� power� supply� below� 0.5V� to� clear� the�
�fault� latch� and� reactivate� the� controller.�
�OVP� protection� can� be� disabled� through� the� no-fault�
�test� mode� (see� the� No-Fault� Test� Mode� section).�
�Output� Undervoltage� Protection� (UVP)�
�The� output� UVP� function� is� similar� to� foldback� current�
�limiting,� but� employs� a� timer� rather� than� a� variable� cur-�
�rent� limit.� If� the� MAX17409� output� voltage� is� 400mV�
�below� the� target� voltage,� the� controller� activates� the�
�shutdown� sequence� and� sets� the� fault� latch.� Once� the�
�controller� ramps� down� to� zero,� it� forces� the� DL� high,�
�and� pulls� DH� low.� Toggle� SHDN� or� cycle� the� V� CC� power�
�supply� below� 0.5V� to� clear� the� fault� latch� and� reactivate�
�the� controller.�
�UVP� protection� can� be� disabled� through� the� no-fault�
�test� mode� (see� the� No-Fault� Test� Mode� section).�
�Thermal-Fault� Protection�
�The� MAX17409� features� a� thermal-fault� protection� cir-�
�cuit.� When� the� junction� temperature� rises� above�
�+160°C,� an� internal� thermal� sensor� sets� the� fault� latch�
�and� forces� the� DL� high� and� the� DH� low.� Toggle� SHDN�
�or� cycle� the� V� CC� power� supply� below� 0.5V� to� clear� the�
�fault� latch� and� reactivate� the� controller� after� the� junction�
�temperature� cools� by� 15°C.� Thermal� shutdown� can� be�
�disabled� through� the� no-fault� test� mode� (see� the� No-�
�Fault� Test� Mode� section).�
�No-Fault� Test� Mode�
�The� latched� fault� protection� features� can� complicate� the�
�process� of� debugging� prototype� breadboards� since�
�there� are� (at� most)� a� few� milliseconds� in� which� to� deter-�
�mine� what� went� wrong.� Therefore,� a� “no-fault� ”� test�
�mode� is� provided� to� disable� the� fault� protection—over-�
�voltage� protection,� undervoltage� protection,� and� ther-�
�mal� shutdown.� Additionally,� the� test� mode� clears� the�
�fault� latch� if� it� has� been� set.� The� no-fault� test� mode� is�
�entered� by� forcing� 11V� to� 13V� on� SHDN� .�
�24�
�______________________________________________________________________________________�
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