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| 型号: | ICL7106CM44Z |
| 厂商: | Intersil |
| 文件页数: | 6/16页 |
| 文件大小: | 0K |
| 描述: | IC ADC 3.5 DIGIT LCD/LED 44-MQFP |
| 标准包装: | 96 |
| 显示器类型: | LCD |
| 配置: | 7 段显示 |
| 数字或字符: | A/D,3.5 位数字 |
| 电源电压: | 4.75 V ~ 5.25 V |
| 工作温度: | 0°C ~ 70°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 44-QFP |
| 供应商设备封装: | 44-MQFP(10x10) |
| 包装: | 托盘 |
| 产品目录页面: | 1236 (CN2011-ZH PDF) |
��
�
�ICL7106,� ICL7107,� ICL7107S�
�?� V� IN� ?�
�Detailed� Description�
�Analog� Section�
�Figure� 3� shows� the� Analog� Section� for� the� ICL7106� and�
�ICL7107.� Each� measurement� cycle� is� divided� into� three�
�phases.� They� are� (1)� auto-zero� (A-Z),� (2)� signal� integrate�
�(INT)� and� (3)� de-integrate� (DE).�
�Auto-Zero� Phase�
�During� auto-zero� three� things� happen.� First,� input� high� and� low�
�are� disconnected� from� the� pins� and� internally� shorted� to� analog�
�COMMON.� Second,� the� reference� capacitor� is� charged� to� the�
�reference� voltage.� Third,� a� feedback� loop� is� closed� around� the�
�system� to� charge� the� auto-zero� capacitor� C� AZ� to� compensate�
�for� offset� voltages� in� the� buffer� amplifier,� integrator,� and�
�comparator.� Since� the� comparator� is� included� in� the� loop,� the� A-�
�Z� accuracy� is� limited� only� by� the� noise� of� the� system.� In� any�
�case,� the� offset� referred� to� the� input� is� less� than� 10� μ� V.�
�Signal� Integrate� Phase�
�During� signal� integrate,� the� auto-zero� loop� is� opened,� the�
�internal� short� is� removed,� and� the� internal� input� high� and� low�
�are� connected� to� the� external� pins.� The� converter� then�
�integrates� the� differential� voltage� between� IN� HI� and� IN� LO� for� a�
�fixed� time.� This� differential� voltage� can� be� within� a� wide�
�common� mode� range:� up� to� 1V� from� either� supply.� If,� on� the�
�other� hand,� the� input� signal� has� no� return� with� respect� to� the�
�converter� power� supply,� IN� LO� can� be� tied� to� analog� COMMON�
�to� establish� the� correct� common� mode� voltage.� At� the� end� of�
�this� phase,� the� polarity� of� the� integrated� signal� is� determined.�
�De-Integrate� Phase�
�The� final� phase� is� de-integrate,� or� reference� integrate.� Input�
�low� is� internally� connected� to� analog� COMMON� and� input�
�high� is� connected� across� the� previously� charged� reference�
�capacitor.� Circuitry� within� the� chip� ensures� that� the� capacitor�
�will� be� connected� with� the� correct� polarity� to� cause� the�
�integrator� output� to� return� to� zero.� The� time� required� for� the�
�output� to� return� to� zero� is� proportional� to� the� input� signal.�
�Specifically� the� digital� reading� displayed� is:�
�DISPLAY� COUNT� =� 1000� ?� ---------------� ?� .�
�?� V� REF� ?�
�Differential� Input�
�The� input� can� accept� differential� voltages� anywhere� within� the�
�common� mode� range� of� the� input� amplifier,� or� specifically� from�
�0.5V� below� the� positive� supply� to� 1V� above� the� negative�
�supply.� In� this� range,� the� system� has� a� CMRR� of� 86dB� typical.�
�However,� care� must� be� exercised� to� assure� the� integrator�
�output� does� not� saturate.� A� worst� case� condition� would� be� a�
�large� positive� common� mode� voltage� with� a� near� full� scale�
�negative� differential� input� voltage.� The� negative� input� signal�
�drives� the� integrator� positive� when� most� of� its� swing� has� been�
�used� up� by� the� positive� common� mode� voltage.� For� these�
�critical� applications� the� integrator� output� swing� can� be�
�reduced� to� less� than� the� recommended� 2V� full� scale� swing�
�with� little� loss� of� accuracy.� The� integrator� output� can� swing� to�
�within� 0.3V� of� either� supply� without� loss� of� linearity.�
�Differential� Reference�
�The� reference� voltage� can� be� generated� anywhere� within� the�
�power� supply� voltage� of� the� converter.� The� main� source� of�
�common� mode� error� is� a� roll-over� voltage� caused� by� the�
�reference� capacitor� losing� or� gaining� charge� to� stray� capacity�
�on� its� nodes.� If� there� is� a� large� common� mode� voltage,� the�
�reference� capacitor� can� gain� charge� (increase� voltage)� when�
�called� up� to� de-integrate� a� positive� signal� but� lose� charge�
�(decrease� voltage)� when� called� up� to� de-integrate� a� negative�
�input� signal.� This� difference� in� reference� for� positive� or� negative�
�input� voltage� will� give� a� roll-over� error.� However,� by� selecting� the�
�reference� capacitor� such� that� it� is� large� enough� in� comparison�
�to� the� stray� capacitance,� this� error� can� be� held� to� less� than� 0.5�
�count� worst� case.� (See� Component� Value� Selection.)�
�STRAY�
�C� REF�
�STRAY�
�R� INT�
�C� AZ�
�C� INT�
�C� REF� +�
�REF� HI�
�REF� LO�
�C� REF� -�
�BUFFER� V+�
�A-Z�
�INT�
�-�
�31�
�V+�
�10� μ� A�
�34�
�36�
�A-Z�
�35�
�A-Z�
�33�
�-�
�+�
�28�
�2.8V�
�1�
�29�
�INTEGRATOR�
�+�
�27�
�-�
�+�
�TO�
�DIGITAL�
�SECTION�
�IN� HI�
�INT�
�DE-�
�DE+�
�INPUT�
�6.2V�
�A-Z�
�HIGH�
�A-Z�
�32�
�DE+�
�DE� -�
�N�
�-�
�+�
�COMPARATOR�
�COMMON�
�30�
�INT�
�A-Z� AND� DE� (±)�
�INPUT�
�LOW�
�IN� LO�
�V-�
�FIGURE� 3.� ANALOG� SECTION� OF� ICL7106� AND� ICL7107�
�6�
�FN3082.8�
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