611 CDMA_2024

611 : CDMA_2024

Design render
  • Author: Santiago Robledo Acosta, Jóse Miguel Rocha Pérez
  • Description: This is a CDMA circuit for lab testing in order to see the properties of Gold Codes in an Osciloscope
  • GitHub repository
  • Clock: 1000000 Hz

How it works

  This is a very simple circuit, it consists in two LSFR register lineary connecated in an specific way in order to generate two m-sequences, in order to 
  generate this pair of m-sequences, we input an initial vaule called seed, this is because we cannot generate a PN signal if the LSFR registers have an 
  initial value of 0s. For this design we used two LSFR with 5 D Flip-Flops. With this we can generate a PN signal with a length of(2^5)-1.
  With this PN signal and modulus 2 adding the signal we want to tranmit, we generate a CDMA signal, which we are going to study simulating a channel with
  an OPAM in order to add noise to the CDMA and feed it back to the designed circuit to see the bit-error rate of this device.
  With this we hope to study and put to test.
  * CDMA
  * Gold Sequences.
  * The effect of the noise in the CDMA.
  * Reception process with a simulated channel.
  * Apply the knowledge aquired within the Latinpractice Bootcamp initiative and apply the knowledge to design and print in a silicon waffle the proposed device.

How to test

  As we used a hardware description language (Verilog), we created an specific testbench for the cdma.v, this testbench simply initializes the input signals
  to 0 in order to generate the adequate signal such as the clock, a test signal to send that lasts 31 clock cycles (Spread-spectrum), a seed value to load both LSFR
  The stimulus simple will assign a value to set_i and deactivate it to load the seed, after that, the LSFR have a linear feedback and will contantly generate the Gold signal
  each clock cycle. With the test signal_i we the system will generate the CDMA signal and assign it to CDMA_o, the Gold signal is assigned to Gold_o, this is the tranmition process.

  For the reception process, we simply assign the value of CDMA_o to receptor_i and the output will be observerd at receptor_o, we can observe that we recovered signal_i as 
  it shows the same time diagram as receptor_o.

  As for the LED_o it works as a simple indicator that the inputed seed is valid for transmission.

  The template will include the verilog file with its testbench.

External hardware

OPAM, Testboard, LED

IO

#InputOutputBidirectional
0signal_icdma_o
1seed_i[0]gold_o
2seed_i[1]receptor_o
3seed_i[2]led_o
4seed_i[3]
5seed_i[4]
6seed_i[5]
7load_i

Chip location

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