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参数资料
| 型号: | ADM2914-2ARQZ-RL7 |
| 厂商: | Analog Devices Inc |
| 文件页数: | 10/16页 |
| 文件大小: | 0K |
| 描述: | IC MONITOR 4CH UV/OV 16-QSOP |
| 标准包装: | 1,000 |
| 类型: | 多压监控器 |
| 监视电压数目: | 4 |
| 输出: | 开路漏极或开路集电极 |
| 复位: | 低有效 |
| 复位超时: | 最小为 6 ms |
| 电压 - 阀值: | 可调节/可选择 |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-SSOP(0.154",3.90mm 宽) |
| 供应商设备封装: | 16-QSOP |
| 包装: | 带卷 (TR) |
��
�
�(� R� X� ?� 0� .� 1� %)� +� (� R� Y� ?� 0� .� 1� %)� ?�
�V� OV� _� MIN� =� (� 0� .� 5� V� ?� 1� .� 5� %)� ?� 1� +�
�?�
�(� R� Z� +� 0� .� 1� %� )�
�?�
�?�
�=� 0� .� 4925� ?� ?� 1� +�
�?� ?�
�ADM2914�
�THRESHOLD� ACCURACY�
�The� reset� threshold� accuracy� is� fundamental,� especially� at� lower�
�voltage� levels.� Consider� an� FPGA� application� that� requires� a� 1� V�
�core� voltage� input� with� tolerance� of� ±5%,� where� the� supply� has� a�
�specified� regulation,� for� example,� ±1.5%.� As� shown� in� Figure� 19,� to�
�ensure� that� the� supply� is� within� the� FPGA� input� voltage� require-�
�ment� range,� its� voltage� level� must� be� monitored� for� UV� and� OV�
�conditions.� The� voltage� swing� on� the� supply� itself� causes� the�
�voltage� band� available� for� setting� the� monitoring� threshold� to� be�
�quite� narrow.� In� this� example,� the� threshold� voltages,� including�
�the� tolerances,� must� fit� within� a� monitor� region� of� only� 0.035� V.�
�The� ADM2914� device� with� 0.1%� resistors� can� achieve� this� level�
�of� accuracy.�
�VOLTAGE�
�Data� Sheet�
�device,� including� all� the� tolerance� factors,� must� fit� within� the�
�1.015� V� to� 1.05� V� range.� Similarly,� the� UV� threshold� range� must�
�be� between� 0.95� V� and� 0.985� V.�
�The� four� worst-case� scenarios� of� minimum� and� maximum�
�undervoltage� and� overvoltage� thresholds� are� calculated� as� follows:�
�Minimum� overvoltage� threshold�
�?�
�?� ?�
�?� (96,500� +� 6420 )(0 . 999)� ?�
�?� (� 96� ,� 500� )(� 1� .� 001� )� ?�
�=� 1� .� 016� V� >� 1� .� 015� V�
�Maximum� overvoltage� threshold�
�V� OV� _� MAX� =� (� 0� .� 5� V� +� 1� .� 5� %)� ?� 1� +�
�?�
�(� R� X� +� 0� .� 1� %)� +� (� R� Y� +� 0� .� 1� %)� ?�
�(� R� Z� ?� 0� .� 1� %� )�
�?�
�1.05V�
�1.015V�
�1V� CORE�
�VOLTAGE�
�+5%� TOLERANCE�
�3.5%� RANGE� FOR�
�OV� MONITORING�
�+1.5%� SUPPLY� REGULATION�
�–1.5%� SUPPLY�
�=� 1� .� 049� V� <� 1� .� 05� V�
�?�
�?�
�?�
�?�
�0.985V�
�0.95V�
�UV�
�–5%� TOLERANCE�
�REGULATION�
�3.5%� RANGE� FOR�
�UV� MONITORING�
�t� UOTO�
�The� maximum� and� minimum� overvoltage� threshold� values� lie�
�within� the� 1.015� V� to� 1.05� V� range� specified.� The� minimum� and�
�maximum� undervoltage� thresholds� are� calculated� as� follows:�
�Minimum� undervoltage� threshold�
�V� UV� _� MIN� =� (� 0� .� 5� V� ?� 1� .� 5� %)� ?� 1� +�
�?�
�V� UV� _� MAX� =� (� 0� .� 5� V� +� 1� .� 5� %)� ?� ?� 1� +�
�(� R� X� ?� 0� .� 1� %)�
�?�
�(� R� X� +� 0� .� 1� %)� ?�
�(� R� Y� ?� 0� .� 1� %� )� +� (� R� Z� ?� 0� .� 1� %� )� ?� ?�
�TIME�
�Figure� 19.� Monitoring� Threshold� Accuracy� Example�
�VOLTAGE� MONITORING� EXAMPLE�
�To� illustrate� how� the� ADM2914� device� works� in� a� real� application,�
�consider� the� 1� V� input� example� shown� in� Figure� 19,� with� the�
�addition� of� a� ?12� V� rail.�
�The� first� step� is� to� choose� the� nominal� current� flow� through�
�both� voltage� divider� circuits,� for� example,� 5� μA.�
�?�
�?�
�=� 0� .� 953� V� >� 0� .� 95� V�
�Maximum� undervoltage� threshold�
�?�
�?�
�=� 0� .� 984� V� <� 0� .� 985� V�
�?�
�(� R� Y� +� 0� .� 1� %� )� +� (� R� Z� +� 0� .� 1� %� )� ?� ?�
�?�
�For� the� 1� V� ±� 5%� input,� due� to� the� specified� ±1.5%� regulation� of�
�the� supply,� the� UV� and� OV� thresholds� should� be� set� in� the� middle�
�of� the� voltage� monitoring� band.� In� this� case,� on� the� ±3.25%�
�points� of� the� supply,� the� UV� threshold� is� 0.9675� V� and� the� OV�
�threshold� is� 1.0325� V.�
�Input� these� values� into� Equation� 1.�
�Again,� these� values� fit� within� the� specified� undervoltage�
�monitoring� range.� All� four� worst-case� scenarios� satisfy� the�
�tolerance� requirement;� therefore,� the� design� approach� is� valid.�
�–12V� RAIL�
�1V� RAIL�
�5V�
�R� Z� =�
�(� 0� .� 5� )� (� 1� )�
�(� 1� .� 0325� )� (� 5� � 10� ?� 6� )�
�≈� 96� .� 5� kΩ�
�96.5k?�
�VH1�
�V� CC�
�OV�
�R� Y� =�
�(� 0� .� 5� )� (� 1� )�
�(� 0� .� 9675� )� (� 5� � 10� ?� 6� )�
�Insert� the� value� of� R� Z� into� Equation� 2.�
�?� 96� .� 5� kΩ� ≈� 6� .� 42� kΩ�
�Then� substitute� the� calculated� values� for� R� Z� and� R� Y� into�
�Equation� 3.�
�1�
�R� X� =�
�?� 96� .� 5� kΩ� ?� 6� .� 42� kΩ� ≈� 96� .� 5� kΩ�
�5� � 10� ?� 6�
�6.42?�
�96.5k?�
�2.49M?�
�23.4k?�
�89.8k?�
�VL1�
�VL3�
�VH3�
�REF�
�ADM2914�
�GND�
�UV�
�SEL�
�This� design� approach� meets� the� application� specifications.� As�
�described� previously,� the� 1� V� rail� is� specified� with� an� input�
�requirement� of� ±5%� and� a� supply� tolerance� of� ±1.5%.� This�
�effectively� means� that� the� OV� threshold� of� the� monitoring�
�Rev.� C� |� Page� 10� of� 16�
�Figure� 20.� Positive� and� Negative� Supply� Monitor� Example�
�相关PDF资料 |
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