FYS3240 PC-based instrumentation and microcontrollers. Signal sampling. Spring 2015 Lecture #5

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1 FYS3240 PC-based instrumentation and microcontrollers Signal sampling Spring 2015 Lecture #5 Bekkeng,

2 Content Aliasing Nyquist (Sampling) ADC Filtering Oversampling Triggering

3 Analog Signal Information Three types of information: Level Shape Frequency

4 Sampling Considerations An analog signal is continuous A sampled signal is a series of discrete samples acquired at a specified sampling rate The faster we sample the more our sampled signal will look like our actual signal Actual Signal If not sampled fast enough a problem known as aliasing will occur Sampled Signal

5 Aliasing Adequately Sampled Signal Signal Aliased Signal

6 Sampling & Nyquist s Theorem Nyquist s Theorem You must sample at greater than 2 times the maximum frequency component of your signal to accurately represent the frequency of your signal

7 Sampling Example Aliased Signal 100Hz Sine Wave Sampled at 100Hz Adequately Sampled for Frequency Only (Same # of cycles) 100Hz Sine Wave Sampled at 200Hz 100Hz Sine Wave Sampled at 1kHz Adequately Sampled for Frequency and Shape

8 Hardware Filtering Filtering To remove unwanted signals from the signal that you are trying to measure Analog anti-aliasing low-pass filtering before the A/D converter To remove all signal frequencies that are higher than the input bandwidth of the device. If the signals are not removed, they will erroneously appear as signals within the input bandwidth of the device (known as aliasing) Frequency Domain:

9 Analog filters Filter types: LP, HP, BP, BS, Notch Passive filters: RC, LCR (often inductors L are avoided, but they are needed for high Q-factor) Active filters opamp + R and C Some common filter characteristics Butterworth Chebyshev Bessel (constant group delay in pass band) Elliptic Bessel

10 Sallen-Key - Active analog filter Structure LP HP

11 Switched-Capacitor Filter Can be suitable as an ADC anti-aliasing filter if you build your own electronics Be aware of possible clock noise (add RC-filters before and after) The corner frequency (cut-off) fc is programmable using an external clock Example: MAX7400 8th-order,lowpass, elliptic filter MAX7400 has a transition ratio (fs/fc) of 1.5 and a typical stop band rejection of 82dB

12 Importance of LP-filter selection for DAQ bandwidth fc = cut-off frequency fs = sampling frequency BW = bandwidth M (db) 0-3 BW A lowpass (LP) filter with a small transition band gives a wider passband/bw with a given sample frequency f s and a defined stopband starting at f stop M stop fc fc f stop f (Hz) fs = 2*fc fs = 2*f stop fs = 5*fc (in this example)

13 ADC architectures Multiplexed Simultaneous sampling

14 ADC resolution The number of bits used to represent an analog signal determines the resolution of the ADC Larger resolution = more precise representation of your signal The resolution determine the smallest detectable change in the input signal, referred to as code width or LSB (least significant bit) Example: Amplitude 5.00 (volts) Bit Versus 3-Bit Resolution (5kHz Sine Wave) bit resolution 3-bit resolution Time (ms)

15 Digital signals: Bits, dynamic range, and SNR SNR = signal to noise ratio The number of bits used determines the maximum possible signal-to-noise ratio Using the entire ADC range (using an amplifier) increases the SNR The minimum possible noise level is the error caused by the quantization of the signal, referred to as quantization noise.

16 ADC oversampling Δf The SNR of an ideal N-bit ADC (due to quantization effects) is: SNR(dB) = 6.02*N If the sampling rate is increased, we get the following SNR: SNR(dB) = 6.02*N * log 10 (OSR) OSR = f s /f nyquist 0 Δf Nyquist sampling theorem: f s 2 *Δf signal Δf signal = f high - f low Oversampling makes it possible to use a simple RC anti-aliasing filter before the ADC After A/D conversion, perform digital low-pass filtering and then down sampling to f nyquist Effective resolution with oversampling N eff = N + 1/2 *log 2 (f s /f nyquist ), where N is the resolution of an ideal N-bit ADC at the Nyquist rate If OSR = f s /f nyquist = 1024, an 8-bit ADC gets and effective resolution equal to that of a 13-bit ACD at the Nyquist rate (which is 2 *Δf signal ) 0 f

17 Trigger (from hardware or software) A trigger is a signal that causes a device to perform an action, such as starting a data acquisition. You can program your DAQ device to react on triggers such as: a software command (software trigger) a condition on an external digital signal a condition on an external analog signal E.g. level triggering

18 Important trigger types Start trigger start data acquisition when an external digital signal have e.g. a rising edge Pre-trigger Include a specified number of samples before the trigger event Useful for high speed imaging Need a data buffer

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