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参数资料
| 型号: | TC7135CBU713 |
| 厂商: | Microchip Technology |
| 文件页数: | 13/28页 |
| 文件大小: | 0K |
| 描述: | IC ADC 4 1/2DGT 64-MQFP |
| 标准包装: | 250 |
| 显示器类型: | LED |
| 配置: | 7 段显示 |
| 接口: | BCD |
| 数字或字符: | A/D,4.5 位数字 |
| 电流 - 电源: | 1mA |
| 电源电压: | 4 V ~ 6 V |
| 工作温度: | 0°C ~ 70°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 64-BQFP |
| 供应商设备封装: | 64-PQFP(14x14) |
| 包装: | 带卷 (TR) |
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�
�TC7135�
�TABLE� 6-2:�
�LINE� FREQUENCY�
�resistor� (a� few� tens� of� ohms� in� the� recommended�
�REJECTION� VS.� CLOCK�
�FREQUENCY�
�Line� Frequency�
�Oscillator� Frequency�
�Rejection�
�(kHz)�
�(Hz)�
�circuit),� the� comparator� delay� can� be� compensated� and�
�the� maximum� clock� frequency� extended� by�
�approximately� a� factor� of� 3.� At� higher� frequencies,�
�ringing� and� second-order� breaks� will� cause� significant�
�nonlinearities� in� the� first� few� counts� of� the� instrument.�
�The� minimum� clock� frequency� is� established� by�
�300�
�200�
�150�
�120�
�100�
�40�
�33-1/3�
�250�
�60�
�50�
�leakage� on� the� auto-zero� and� reference� capacitors.�
�With� most� devices,� measurement� cycles� as� long� as� 10�
�seconds� give� no� measurable� leakage� error.�
�The� clock� used� should� be� free� from� significant� phase� or�
�frequency� jitter.� Several� suitable� low-cost� oscillators�
�are� shown� in� Section� 6.0� “Typical� Applications”� .� The�
�multiplexed� output� means� that� if� the� display� takes�
�significant� current� from� the� logic� supply,� the� clock�
�should� have� good� PSRR.�
�166-2/3�
�125�
�6.4�
�Zero� Crossing� Flip� Flop�
�100�
�100�
�50,� 60,400�
�The� flip� flop� interrogates� the� data� once� every� clock�
�pulse� after� the� transients� of� the� previous� clock� pulse� and�
�half� clock� pulse� have� died� down.� False� zero� crossings�
�The� conversion� rate� is� easily� calculated:�
�EQUATION� 6-3:�
�Clock� Frequency� (Hz)�
�Reading� 1/sec� =� ----------------------------------------------------�
�4000�
�caused� by� clock� pulses� are� not� recognized.� Of� course,�
�the� flip� flop� delays� the� true� zero� crossing� by� up� to� one�
�count� in� every� instance.� If� a� correction� were� not� made,�
�the� display� would� always� be� one� count� too� high.�
�Therefore,� the� counter� is� disabled� for� one� clock� pulse� at�
�the� beginning� of� the� reference� integrate� (de-integrate)�
�phase.� This� one-count� delay� compensates� for� the� delay�
�of� the� zero� crossing� flip� flop� and� allows� the� correct�
�6.3�
�High-Speed� Operation�
�number� to� be� latched� into� the� display.� Similarly,� a� one-�
�The� maximum� conversion� rate� of� most� dual-slope� A/D�
�converters� is� limited� by� the� frequency� response� of� the�
�comparator.� The� comparator� in� this� circuit� follows� the�
�integrator� ramp� with� a� 3� μs� delay,� at� a� clock� frequency�
�count� delay� at� the� beginning� of� auto-zero� gives� an�
�overload� display� of� 0000� instead� of� 0001.� No� delay�
�occurs� during� signal� integrate� so� that� true� ratiometric�
�readings� result.�
�of� 160� kHz� (6� μs� period).� Half� of� the� first� reference� inte-�
�grate� clock� period� is� lost� in� delay.� This� means� that� the�
�6.5�
�Generating� a� Negative� Supply�
�meter� reading� will� change� from� 0� to� 1� with� a� 50� μV�
�input,� 1� to� 2� with� 150� μV,� 2� to� 3� at� 250� μV,� etc.� This� tran-�
�sition� at� midpoint� is� considered� desirable� by� most�
�users.� However,� if� the� clock� frequency� is� increased�
�appreciably� above� 200� kHz,� the� instrument� will� flash�
�A� negative� voltage� can� be� generated� from� the� positive�
�supply� by� using� a� TC7135� (see� Figure� 6-1� ).�
�+5V�
�"1"� on� noise� peaks,� even� when� the� input� is� shorted.�
�For� many� dedicated� applications� where� the� input� signal�
�V+�
�11�
�8�
�is� always� of� one� polarity,� the� delay� of� the� comparator�
�need� not� be� a� limitation.� Since� the� nonlinearity� and�
�noise� do� not� increase� substantially� with� frequency,� clock�
�rates� of� up� to� ~1� MHz� may� be� used.� For� a� fixed� clock�
�frequency,� the� extra� count� (or� counts)� caused� by�
�comparator� delay� will� be� a� constant� and� can� be�
�subtracted� out� digitally.�
�TC7135�
�V–�
�24�
�1�
�(-5V)�
�10� μF�
�+�
�5�
�4�
�TC7660�
�2�
�+�
�10� μF�
�3�
�The� clock� frequency� may� be� extended� above� 160� kHz�
�without� this� error,� however,� by� using� a� low� value�
�resistor� in� series� with� the� integrating� capacitor.� The�
�effect� of� the� resistor� is� to� introduce� a� small� pedestal�
�voltage� on� to� the� integrator� output� at� the� beginning� of�
�the� reference� integrate� phase.� By� careful� selection� of�
�the� ratio� between� this� resistor� and� the� integrating�
�?� 2007� Microchip� Technology� Inc.�
�FIGURE� 6-1:�
�Generator.�
�Negative� Supply� Voltage�
�DS21460D-page� 13�
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