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| 型号: | EVAL-ADM1185EBZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 9/16页 |
| 文件大小: | 0K |
| 描述: | BOARD EVALUATION FOR ADM1185 |
| 产品培训模块: | ADM1185 |
| 标准包装: | 1 |
| 主要目的: | 电源管理,电源监控器/跟踪器/序列发生器 |
| 嵌入式: | 否 |
| 已用 IC / 零件: | ADM1185 |
| 主要属性: | 4 输入,3 开漏极启用输出 |
| 次要属性: | 开漏极电源正常输出 |
| 已供物品: | 板,文档,样品 IC |
| 相关产品: | ADM1185ARMZ-1REEL7DKR-ND - IC VOLT MONITOR/SEQUENCER 10MSOP ADM1185ARMZ-1REEL7CT-ND - IC VOLT MONITOR/SEQUENCER 10MSOP ADM1185ARMZ-1REEL7TR-ND - IC VOLT MONITOR/SEQUENCER 10MSOP |
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��ADM1185�
�THEORY� OF� OPERATION�
�The� operation� of� the� ADM1185� is� explained� in� this� section� in�
�the� context� of� the� device� in� a� voltage� monitoring� and� sequencing�
�application� (see� Figure� 18).� In� this� application,� the� ADM1185�
�monitors� four� separate� voltage� rails,� turns� on� three� regulators� in�
�a� predefined� sequence,� and� generates� a� power-good� signal� to�
�turn� on� a� controller� when� all� power� supplies� are� up� and� stable.�
�POWER-ON� SEQUENCING� AND� MONITORING�
�The� main� supply,� in� this� case� 3.3� V,� powers� up� the� device� via� the�
�VCC� pin� as� the� voltage� rises.� A� supply� voltage� of� 2.7� V� to� 5.5� V�
�is� needed� to� power� the� device.�
�The� VIN1� pin� monitors� the� main� 3.3� V� supply.� An� external�
�resistor� divider� scales� this� voltage� down� for� monitoring� at� the�
�VIN1� pin.� The� resistor� ratio� is� chosen� so� that� the� VIN1� voltage�
�is� 0.6� V� when� the� main� voltage� rises� to� the� preferred� level� at� start-�
�up� (a� voltage� below� the� nominal� 3.3� V� level).� R1� is� 4.6� k� and�
�R2� is� 1.2� kΩ,� so� a� voltage� level� of� 2.9� V� corresponds� to� 0.6� V� on�
�the� noninverting� input� of� the� first� comparator� (see� Figure� 17).�
�V�
�3.3V�
�2.9V�
�OUT1� is� an� open-drain,� active� high� output.� In� this� application,�
�OUT1� is� connected� to� the� enable� pin� of� a� regulator.� Before�
�the� voltage� on� VIN1� reaches� 0.6� V,� this� output� is� switched� to�
�ground,� disabling� Regulator� 1.� Note� that� all� outputs� are� driven�
�to� ground� as� long� as� there� is� 1� V� on� the� VCC� pin� of� the� ADM1185.�
�When� the� main� system� voltage� reaches� 2.9� V,� VIN1� detects� 0.6� V.�
�This� causes� OUT1� to� assert� after� a� 190� ms� (typical)� delay.� When�
�this� occurs,� the� open-drain� output� switches� high,� and� the� external�
�pull-up� resistor� pulls� the� voltage� on� the� Regulator� 1� enable� pin�
�above� its� turn-on� threshold,� turning� on� the� output� of� Regulator� 1.�
�The� assertion� of� OUT1� turns� on� Regulator� 1.� The� 2.5� V� output�
�of� this� regulator� begins� to� rise.� This� is� detected� by� Input� VIN2�
�(with� a� similar� resistor� divider� scheme,� as� shown� in� Figure� 18).�
�When� VIN2� detects� the� 2.5� V� rail� rising� above� its� UV� point,� it�
�asserts� Output� OUT2,� which� turns� on� Regulator� 2.� A� capacitor�
�can� be� placed� on� the� VIN2� pin� to� slow� the� rise� of� the� voltage� on�
�this� pin.� This� effectively� sets� a� time� delay� between� the� 2.5� V� rail�
�powering� up� and� the� next� enabled� regulator.�
�The� same� scheme� is� implemented� with� the� other� input� and�
�output� pins.� Every� rail� that� is� turned� on� via� an� output� pin,�
�OUTx,� is� monitored� via� an� input� pin� VIN(x� +� 1).�
�0V�
�2.9V� SUPPLY�
�GIVES� 0.6V�
�AT� VIN1� PIN�
�t�
�4.6k� ?�
�VIN1�
�1.2k� ?�
�0.6V�
�ADM1185�
�TO� LOGIC�
�CORE�
�The� final� comparator� inside� the� VIN4� pin� detects� the� final� supply�
�turning� on,� which� is� 1.2� V� in� this� case.� The� output� pins,� OUT1�
�to� OUT3� are� logically� AND’ed� together� to� generate� a� system�
�power-good� signal� (PWRGD).� There� is� an� internal� 190� ms� delay�
�(typical)� associated� with� the� assertion� of� the� PWRGD� output.�
�Figure� 17.� Setting� the� Undervoltage� Threshold� with� an�
�External� Resistor� Divider�
�3.3V� IN�
��the� outputs.� Any� associated� internal� time� delays� are� also� shown.�
�2.5V� OUT�
�1.8V� OUT�
�1.2V� OUT�
�VCC�
�ADM1185�
�VIN1� OUT1�
�IN�
�REGULATOR� 1�
�EN� OUT�
�2.5V� OUT�
�VIN2�
�OUT2�
�GND�
�IN�
�VIN3�
�VIN4�
�GND�
�OUT3�
�PWRGD�
�POWER�
�GOOD�
�REGULATOR� 2�
�EN� OUT�
�GND�
�IN�
�REGULATOR� 3�
�EN� OUT�
�GND�
�1.8V� OUT�
�1.2V� OUT�
�Figure� 18.� Voltage� Monitoring� and� Sequencing� Application� Diagram�
�Table� 5.� Truth� Table�
�State�
�1�
�2�
�3�
�4�
�5�
�State� Name�
�Reset�
�OUT1� On�
�OUT1,� OUT2� On�
�OUT1,� OUT2,� OUT3� On�
�Power� Good�
�OUT1�
�0�
�1�
�1�
�1�
�1�
�OUT2�
�0�
�0�
�1�
�1�
�1�
�OUT3�
�0�
�0�
�0�
�1�
�1�
�PWRGD�
�0�
�0�
�0�
�0�
�1�
�Next� Event�
�VIN1� high� for� 190� ms�
�VIN1� and� VIN2� high� for� 30� μs�
�VIN1,� VIN2,� and� VIN3� high� for� 30� μs�
�All� high� for� 190� ms�
�VIN2� ,� VIN3,� or� VIN4� low� for� 30� μs�
�Next� State�
�OUT1� On�
�OUT1,� OUT2� On�
�OUT1,� OUT2,� OUT3� On�
�Power� Good�
�OUT1,� OUT2,� OUT3� On�
�Rev.� B� |� Page� 9� of� 16�
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