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I'm using the TSL235 (http://www.ti.com/lit/ds/symlink/tsl235.pdf) light-to-frequency converter and the Raspberry Pi. The output of the sensor is a square wave (50% duty cycle) with frequency directly proportional to light intensity.

So I need to know (in a python script) which frequency gets to the Input GPIO-Pin of the Raspberry Pi.

I only found a tutorial (http://playground.arduino.cc/Main/TSL235R) which shows a C-code, but I do not understand C... I'm only working with python

Reading a GPIO Input isn't that hard so far:

#!/usr/bin/python
import RPi.GPIO as GPIO

GPIO.setmode(GPIO.BCM)
GPIO.setup(25, GPIO.IN)

impuls_count = 0
# Do next lines for i.e. 1000ms:
GPIO.wait_for_edge(25, GPIO.FALLING)
impuls_count = impuls_count + 1

I think I have to count the signals in a time intervall. But how?

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  • Well what does the documentation say? (link?) This will be heavily downvoted/flamed/closed as a 'Give me teh codez'-type question. Or if it's about specifics of interfacing with the hardware, it's offtopic on SO and should be migrated. Can you at least show us your attempt at code to read a signal from the Input GPIO-pin? Link to any relevant doc or tutorials.
    – smci
    Apr 20, 2014 at 20:12
  • No I don't want the complete code. But I do not know how to get a frequency "technically" in a python script. Apr 20, 2014 at 20:17
  • Then either a) show us your attempt at code to read a signal from the Input GPIO-pin b) Link to any relevant doc or tutorials
    – smci
    Apr 20, 2014 at 20:18
  • See also stackoverflow.com/questions/22641694/…
    – smci
    Apr 20, 2014 at 20:21
  • I updated the post with my simple code for a GPIO Input and a link to the only tutorial I found. Apr 20, 2014 at 20:54

1 Answer 1

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Use the time module. It has a clock function that is sensitive to 1 microsecond (1 MHz). Looking at your sensor's datasheet, it only goes up to 500 kHz, that should be sufficient resolution to get accurate frequency measurements at high light intensity.

Just calculate an average frequency of a set of input cycles.

import time

NUM_CYCLES = 10
start = time.time()
for impulse_count in range(NUM_CYCLES):
    GPIO.wait_for_edge(25, GPIO.FALLING)
duration = time.time() - start      #seconds to run for loop
frequency = NUM_CYCLES / duration   #in Hz
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  • Great! Does it make a difference using FALLING or RISING? And do I have to set 'pull_up_down=GPIO.PUD_UP'? Apr 21, 2014 at 5:49
  • Which edge shouldn't matter, but you should try each to see if you prefer the result of one to the other. As per the schematic on page 5 of the sensor data sheet, it looks like the default value of pull_up_down=GPIO.PUD_OFF should be fine, as the sensor is designed to interface directly with a microcontroller I/O pin.
    – mtadd
    Apr 21, 2014 at 6:07
  • Thank you very much for your great help! Apr 21, 2014 at 6:08
  • for what does impulse_count stand? I think it is not needed.
    – Micha93
    Aug 6, 2020 at 13:28

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