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LM321跟随器问题
[i=s] 本帖最后由 mengyanfeng 于 2024-11-11 16:40 编辑 [/i] [color=#202d40][backcolor=rgb(255, 255, 255)][font=ui-sans-serif, system-ui, -apple-system, "]有个模电硬件问题请教下群里的前辈:电磁线圈产生Vpp=1.6V, 频率1140HZ左右的正弦信号,估计内阻较大,所以使用LM321做电压跟随器后,才输入AD相关。但是,现在接入LM321跟随器后,发现波形发生畸变,可能时什么原因?原理图和波形图如下:[/font][/backcolor][/color][color=#202d40][backcolor=rgb(255, 255, 255)][font=ui-sans-serif, system-ui, -apple-system, "] [/font][/backcolor][/color][attach]2315470[/attach][attach]2315472[/attach][attach]2315474[/attach]
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关于LMV324的供电
群里的大佬,晚上好!最近做一个压力放大电路,供电是电池,电压在3-4V之间,我没有试过,供电电压变化对运放输出的影响大不大?是否需要加稳压模块?理论上应该不用加,但我没有试过。谢谢回答!!!!
7790浏览量 7回复量 关注量 -
lmr14050输出电容纹波计算
[img]data:image/png;base64,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***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[/img] 请教各位,lmr14050手册中描述的输出电容由于充放电引起的纹波计算公式,应该是由i=C*du/dt公式转换而来。 参考网络一**,通过对i=C*du/dt积分,积分区间的选取为何是t off/2至 t on/2 呢?
3949浏览量 4回复量 关注量 -
HK32F030C8主频无法超过36MHz
原先使用的STM32030C8,代码也是用STM的时标准库写的,直接换航顺的HK32F030C8上去,程序运行到时钟配置时不行了。时钟配置代码: static void RCC_Configuration(void) { u16 i; RCC_DeInit(); /*使能HSI */ RCC_HSICmd(ENABLE); /*设置PLL时钟源及倍频系数*/ RCC_PLLConfig(RCC_PLLSource_HSI_Div2, RCC_PLLMul_12); //16MHz(RCC_PLLMul_4),36MHz(RCC_PLLMul_9),48MHz(RCC_PLLMul_12)。 /*使能PLL */ RCC_PLLCmd(ENABLE); i = 1000; while((RCC_GetFlagStatus(RCC_FLAG_PLLRDY) == RESET) && (--i > 0)); /*设置系统时钟(SYSCLK) */ RCC_SYSCLKConfig(RCC_SYSCLKSource_PLLCLK); SystemCoreClockUpdate(); } 将RCC_PLLMul_12改为RCC_PLLMul_9或以下时,程序运行正常。RCC_PLLMul_10及以上时程序就不行了。
5982浏览量 35回复量 关注量 -
关于脉动直流电压的ADC采样算法问题
50HZ的交流信号经LM324放大偏置后,用STC12C5608AD的ADC去采集电压值,怎么采集,波形如下。 [attach]1588252[/attach]
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LM 2587 这种升压模块可以并联使用吗?
LM2587的输入很宽。如果我嫌功率不够,并联使用,行吗? 是芯片级的并联还是模块级的并联呢?会互相干扰吗? 因为它从 5V 到 12V之后的典型输出是 1.2A,对我还是有点小。 我要的是至少 2A,最好 4A。不过我这个是间歇的,周期1S,占空比一半。它的应该是连续的。 谢谢! [attach]1518850[/attach]
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