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| 型号: | KIT33701DWBEVB |
| 厂商: | Freescale Semiconductor |
| 文件页数: | 25/39页 |
| 文件大小: | 0K |
| 描述: | KIT FOR 33701 POWER SUPPLY |
| 标准包装: | 1 |
| 主要目的: | DC/DC,LDO 步降 |
| 输出及类型: | 2,非隔离 |
| 输入电压: | 2.8 ~ 6V |
| 稳压器拓扑结构: | 降压 |
| 频率 - 开关: | 300kHz |
| 板类型: | 完全填充 |
| 已供物品: | 板,软件 |
| 已用 IC / 零件: | MC34701 |
| 相关产品: | MC34701EKR2CT-ND - IC POWER SUPPLY MCU 1A 32-SOIC MC34701EKR2TR-ND - IC POWER SUPPLY MCU 1A 32-SOIC MC34701EK-ND - IC POWER SUPPLY MCU 1A 32-SOIC |
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�FUNCTIONAL� DEVICE� OPERATION�
�OPERATIONAL� MODES�
�Single� 5.0V� Supply,� VIN1� =� VIN2,� or� Dual� Supply� VIN1� ?�
�VIN2�
�The� LDO� supplies� the� microprocessor� I/O� voltage.� The�
�switcher� supplies� the� core� (e.g.,� 1.5V� nominal)� (see�
��Power-up�
�This� condition� depends� upon� the� regulator� current� limit,�
�load� current� and� capacitance,� and� the� relative� rise� times� of�
�the� VIN1� and� VIN2� supplies.� There� are� two� cases:�
�1.� LDO� rises� faster� than� VOUT� .� The� LDO� uses� control�
�methods� (1)� and� (2)� described� in� the� section� Methods�
��2.� VOUT� rises� faster� than� LDO.� The� switcher� uses� control�
�methods� (5)� and� (6)� described� in� the� section� Methods�
��Power-down�
�This� condition� depends� upon� the� regulator� load� current�
�and� capacitance� and� the� relative� fall� times� of� the� VIN1� and�
�VIN2� supplies.� There� are� two� cases:�
�1.� VOUT� falls� faster� than� LDO.� The� LDO� uses� control�
�methods� (1)� and� (2)� described� in� the� section� Methods�
��In� the� case� VIN1� =� VIN2,� the� intrinsic� operation� turns�
�on� both� the� buck� high� side� MOSFET� and� the� LDO�
�external� Pass� MOSFET,� and� discharges� the� LDO� load�
�capacitor� into� the� VIN� supply.�
�2.� LDO� falls� faster� than� VOUT� .� The� switcher� uses� control�
�methods� (5)� and� (6)� described� in� the� section� Methods�
��Shorted� Load�
�1.� VOUT� shorted� to� ground.� The� LDO� uses� method� (1)�
���2.� LDO� shorted� to� ground.� The� switcher� uses� control�
�methods� (5)� and� (6)� described� in� the� section� Methods�
��3.� VIN1� shorted� to� ground.� Device� is� not� working.�
�4.� VIN2� shorted� to� ground� with� VIN1� and� VIN2� different.�
�This� is� equivalent� to� the� switcher� output� shorted� to�
�ground.�
�5.� VOUT� shorted� to� supply.� No� load� protection.� 34701� is�
�protected� by� current� limit� and� thermal� shutdown.�
�6.� LDO� shorted� to� supply.� No� load� protection.� 34701� is�
�protected� by� current� limit� and� thermal� shutdown.�
�INVERTED� OPERATING� MODE�
�Single� 3.3V� Supply,� VIN� =� VIN1� =� VIN2� =� 3.3V�
�The� 3.3V� supplies� the� microprocessor� I/O� voltage,� the�
�LDO� supplies� core� voltage� (e.g.,� 1.5V� nominal),� and� the�
�depends� only� on� the� normal� LDO� intrinsic� operation� to� control�
�the� Pass� MOSFET.�
�Power-up�
�When� VIN� is� rising,� initially� LDO� is� below� the� regulation�
�point� and� the� Pass� MOSFET� is� on.� In� order� not� to� exceed� the�
�2.1V� differential� requirement� between� the� I/O� (VIN)� and� the�
�core� (LDO),� the� LDO� must� start� up� at� 2.1V� or� less� and� be� able�
�to� maintain� the� 2.1V� or� less� differential.� The� maximum� slew�
�rate� for� V� IN� is� 1.0V/ms.�
�Power-down�
�When� VIN� is� falling,� LDO� falls� below� the� regulation� point;�
�therefore,� the� Pass� MOSFET� is� on.� In� the� case� where� LDO� is�
�falling� faster� than� VIN,� the� pass� MOSFET� attempts� to�
�maintain� LDO.� In� the� case� where� VIN� is� falling� faster� than�
�LDO,� the� pass� MOSFET� is� also� on,� and� the� LDO� load�
�capacitor� is� discharged� through� the� pass� MOSFET� to� VIN.�
�Thus,� provided� VIN� does� not� fall� too� fast,� the� core� voltage�
�(LDO)� does� not� exceed� the� I/O� voltage� (VIN)� by� more� than�
�maximum� of� 0.4V.�
�Shorted� Load�
�1.� LDO� shorted� to� ground.� This� will� cause� the� I/O� voltage�
�to� exceed� the� core� voltage� by� more� than� 2.1V.� No� load�
�protection.�
�2.� VIN� shorted� to� ground.� Until� the� LDO� load� capacitance�
�is� discharged,� the� core� voltage� exceeds� the� I/O� voltage�
�by� more� than� 0.4V.� By� the� intrinsic� operation� of� the�
�LDO,� the� load� capacitor� is� discharged� rapidly� through�
�the� Pass� MOSFET� to� VIN.�
�3.� LDO� shorted� to� supply.� No� load� protection.�
�Single� 5.0V� Supply,� VIN1� =� VIN2,� or� Dual� Supply� VIN1� ?�
�VIN2�
�The� switcher� VOUT� supplies� the� microprocessor� I/O�
�voltage.� The� LDO� supplies� the� core� (e.g.,� 1.5V� nominal)� (see�
��Power-up�
�This� condition� depends� upon� the� regulator� current� limit,�
�load� current� and� capacitance,� and� the� relative� rise� times� of�
�the� VIN1� and� VIN2� supplies.� There� are� two� cases:�
�1.� VOUT� rises� faster� than� LDO.� The� switcher� VOUT� uses�
�control� methods� (1)� and� (2)� described� in� the� section�
��2.� LDO� rises� faster� than� VOUT� .� The� LDO� uses� control�
�methods� (5)� and� (6)� described� in� the� section� Methods�
��Power-down�
�This� condition� depends� upon� the� regulator� load� current�
�and� capacitance� and� the� relative� fall� times� of� the� VIN1� and�
�VIN2� supplies.� There� are� two� cases:�
�switcher� VOUT� operates� independently.� Power� sequencing�
�34701�
�Analog� Integrated� Circuit� Device� Data� ?�
�Freescale� Semiconductor�
�25�
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