四位半数字电压表
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[摘要] 4 1/2数字电压表主要分为四部分:测量部分、显示部分、脉冲部分、供电部分。测量部分是通过4位半双积分式A/D转换器ICL7135芯片实现。ICL7135对模拟电压进行A/D转换,输出BCD码,并自动输出极性判断信号,同时ICL7135用动态扫描传送数据使数码管亮灭的时间间隔短,保证了测量结果的稳定显示。74LS47和共阳数码管是显示部分,74LS74译码器接收ICL7135的BCD码译码成控制信号去点亮数码管,从而显示出所测的模拟电压值。用ICM7556配上合适的电阻电容组成多谐振荡器作为脉冲部分产生标准的137KHz频率提供ICL7135工作时针信号。外接+5V和74HC04产生的-5V是供电部分给整个电路供电。整个设计利用反相器与555结合产生-5V给ICL7135供电降低了电路的供电要求。选用ICL7135使显示变得简单而又稳定。
[关键词] 数字电压表 A/D转换 数码管
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Four And A Half Digital Voltmeter
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[Abstract] 4 1/2 digital voltmeter measurement are mainly divided into four parts: part, that part, pulse, power supply. Measurement part is through four half A/D converter ICL7135 chip. ICL7135 to simulate A/D conversion voltage output, and automatic BCD output signal, and ICL7135 polarity judgment with dynamic scanning GuanLiang digital data transmission to destroy the time interval is short, guarantee the stability of measurement results. 74LS47 and Yang digital display 74LS74 part, is receiving the decoder ICL135 BCD decoding into the control signal to light, which showed that the simulation test voltage values. ICM7556 with matching appropriate resistance composed many harmonic oscillator as capacitance have standard 137KHz pulse frequency signal. ICL7135 provide working hour External + 5V and 74HC04 produces - for the part is 5V circuit power supply. The whole design using inverter and combined to produce 555-5V circuit ICL7135 power supply decreased. ICL7135 choose to display become simple and stable.
[Keywords] The digital voltmeter A/D conversion Digital tube
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目 录
1前言 ........................................................... 1 1.1数字电压表的特点及发展趋势 ................................. 1 1.1.1 数字电压表的特点 ........................................ 2 1.1.2 数字仪表的发展趋势 ...................................... 3 1.2总体方案设计论证 ........................................... 4 1.2.1设计要求 ................................................ 4 1.2.2设计目的 ................................................ 5 2 数字电压表的基本组成原理及电路设计 ............................ 6 2.1数字电压表基本原理及系统框图 ............................... 6 2.2 输入滤波电路及负电源组成原理 ............................... 6 2.3四位半A/D转换器ICL7135的功能介绍 ........................ 7 2.3.1 ICL7135的内部电路结构 .................................. 7 2.3.2 ICL7135的引脚功能介绍 .................................. 8 2.4 ICM7556时钟振荡器 ......................................... 9 2.4.1 555组成的多谐振荡电路 ................................. 10 2.4.2 ICM7556引脚分布 ....................................... 10 2.5 驱动器、译码器、数码显示器 ................................ 11 2.6 并行BCD码的输出 .......................................... 14 3 调试要点及测试方法 ........................................... 15 3.1调试要点及测试方法 ........................................ 15 3.2故障排除 .................................................. 15 4 设计心得与体会 ............................................... 16 参考文献 ........................................................ 17 附录: .......................................................... 18 附图Ⅰ 四位半数字电压表电路原理图
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四位半数字电压表课程设计
