我看到《ADI模数转换器应用笔记》中第137页中说 这个信噪比是怎么计算出来的呢?
2018-09-13 10:54
设计目标 高速小信号放大,放大30-50倍,低噪声 信号幅度5-8mV 带宽100M,电压±2.5V,我想问,我选用LT6268、6269两级放大,前后级放大倍数有什么讲究?使用同样的可不可以,谢谢!
2023-11-14 07:58
我正在开发一个用于模拟传感应用的PCB。它在PSoC3上使用12位Delta Sigma ADC。像往常一样,应用程序非常受空间限制(11mm×21mm),所以我不得不在PCB版图上做出一些妥协,而我不会在更大的PCB上这样做。该板是由规定6V,并包含两个5V线性稳压器。用于数字电源的MCP1702和模拟电源的MIC5205。该板感测五个A1324霍尔效应传感器。每个霍尔效应输出信号由100NF+1K RC滤波器滤波。一个传感器在PCB本身(右下角)。另4个插头插入右手6针连接器。芯片是一个SPI从机,但是ADC采样总是在SPI事务之间进行,所以SPI不应该干扰模拟信号。可悲的是,我仍然看到一些噪音(大约1.5 LSB在12位)上的模拟信号,我不知道是否有什么我可以做不同的(在布局或其他方面),以改善它。我用MC2308完成的其他PCB设计,和相同的双5V电源,相同的传感器,和相同的RC滤波器在12位没有达到明显的噪声。我真的想把它推向12 eNoB。原因不是准确度,而是速度测量。目前,这种噪声水平使得机器人无法进行精确的位置和速度控制。PNG127.2 K 以上来自于百度翻译 以下为原文I am developing a PCB for an analogue sensing application. It uses the 12-bit Delta Sigma ADC on a PSoC3. As usual, the application is very space constrained (11mm x 21mm), so I have had to make some compromises in the PCB layout which I would not have done on a larger PCB. The board is supplied by regulated 6v, and contains two 5v linear regulators. An MCP1702 for the digital supply, and an MIC5205 for the analogue supply. The board is sensing five A1324 Hall effect sensors. Each Hall effect output signal is filtered by a 100nF + 1k RC filter. One sensor is on the PCB itself (bottom right). The other 4 plug into the right hand 6-pin connector. The chip is acting as an SPI slave, but ADC samples are always taken between SPI transactions, so the SPI should not interfere with the analogue signals. Sadly, I am still seeing some noise (about 1.5 LSB at 12-bits) on the analogue signals, and I wonder if there is anything I could have done differently (in the layout or otherwise) to improve it. Other PCB designs I have done using the MCP2308, and the same dual 5v supplies, same sensors, and same RC filters have achieved no noticeable noise at 12 bits. I would really like to push it towards 12 ENOB. The reason is not accuracy, but velocity measurement. Currently this level of noise is making it impossible to do accurate position and velocity control on a robot. Prox_PSoC.png 127.2 K
2019-05-10 06:59
电源开发是个技术活,也是个累活,工作繁杂时难免会犯一些低级小错误。这些错误,会导致一系列的连锁反应,需要采购部、生产部、PM、品管部、业务部、工程部等众多部门来配合,以修正你的那个小错误。本文作者将为大家分享自己在十年研发电源工作中,积累的一些实用经验,希望对大家有所帮助。
2021-03-02 08:31
LDO是一种微功耗的低压差线性稳压器,它具有极低的自有噪声和较高的电源抑制比(PSRR)。SGM2007高性能低压差线性稳压器在10Hz至100kHz频率范围内的输出噪声为30 μV(RMS),在 1 kHz 的频率下电源抑制比(PSRR)高达73dB,它能够为诸如射频(RF)接收器和发送器、压控振荡器(VCO)和音频放大器等对噪声敏感的模拟电路的供电提供低噪声、电源纹波抑制比(PSRR)和快速瞬态响应,它的使能电路兼容TTL电平适合数字电路供电。SGM2007的输入电压在2.5V至5.5V之间,适合蓝牙数码相机和个人数字助理(PDA),以及诸如无线和高端音频产品等单个锂电池供电或固定3.3V和5V系统。
2019-06-19 06:43
经常遇到打电话或来电的瞬间,电视机、电脑音箱等设备会发出滋啦兹啦的声音,通俗讲应该就叫电流声。大概原理我知道是GSM900高频电磁波辐射到了audio line中,而且这个900M信号是以217hz的开关频率辐射的。请问如果这个900M的信号辐射到audio line中以后是如何让喇叭发出声音的?求解。
2015-02-03 17:01
LDO是一种微功耗的低压差线性稳压器,它具有极低的自有噪声和较高的电源抑制比(PSRR)。SGM2007高性能低压差线性稳压器在10Hz至100kHz频率范围内的输出噪声为30µV(RMS),在1kHz的频率下电源抑制比(PSRR)高达73dB,它能够为诸如射频(RF)接收器和发送器、压控振荡器(VCO)和音频放大器等对噪声敏感的模拟电路的供电提供低噪声、电源纹波抑制比(PSRR)和快速瞬态响应,它的使能电路兼容TTL电平适合数字电路供电。SGM2007的输入电压在2.5V至5.5V之间,适合蓝牙数码相机和个人数字助理(PDA),以及诸如无线和高端音频产品等单个锂电池供电或固定3.3V和5V系统。
2019-07-25 06:15
我有一个5VPP的输入信号,它的直流偏移了2.5V,这些信号偶尔会出现一次,我需要把这些信号转换成脉冲。我的想法是比较这个值与2,5V直流电压。但是这个直流电压可能很吵…这是个好主意吗????还是?我可以给2个不同增益的放大器提供相同的信号,给比较器……这是更好的选择吗????? 以上来自于百度翻译 以下为原文I have an incoming signal of 5vpp which is dc shifted by 2.5V These signals come once in a while and i need to convert these signals to Pulses. My idea is to compare this value with the 2,5V DC voltage . But this DC voltage may be noisy.....Is this a good idea???? or I can give the same signal to 2 different amplifiers of different gains and give to comparator....is this a better choice????
2019-05-13 10:08
