1. Draw an implementation by means of addition blocks, scaling and discrete system memory units | y[n] = 0.4x[n] + 0...
1. Draw an implementation by means of addition blocks, scaling and discrete system memory units | y[n] = 0.4x[n] + 0.1x[n-1] + 0.1x[n-2] + 0.4"[n-3] 2. Determine the bit-per-second rate and resolution in the 12-bit A/D conversion process for an ECG signal with a dynamic range of 0.5 V, if the sampling frequency is Fs 100. samples/s. What is the maximum frequency that can distinguish in the digital ECG signal? 3. Consider the discrete system represented by the equation in differences a) Determine b depending on a, and the condition that it must comply with such that 100 b)Calculate the response to the step of the linear and invariant system in time with initial zero status, and choose the value of b and a such that y [oo] -1. Compare the conditions resulting in a and B in paragraphs (a) and (b), what can be mentioned?
1. Draw an implementation by means of addition blocks, scaling and discrete system memory units | y[n] = 0.4x[n] + 0.1x[n-1] + 0.1x[n-2] + 0.4"[n-3] 2. Determine the bit-per-second rate and resolution in the 12-bit A/D conversion process for an ECG signal with a dynamic range of 0.5 V, if the sampling frequency is Fs 100. samples/s. What is the maximum frequency that can distinguish in the digital ECG signal? 3. Consider the discrete system represented by the equation in differences a) Determine b depending on a, and the condition that it must comply with such that 100 b)Calculate the response to the step of the linear and invariant system in time with initial zero status, and choose the value of b and a such that y [oo] -1. Compare the conditions resulting in a and B in paragraphs (a) and (b), what can be mentioned?