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 IR Remote Control Modulation Detector

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الدوله : مصر
عدد المساهمات : 311
نقاط : 55223
السٌّمعَة : 3
تاريخ التسجيل : 29/04/2009

IR Remote Control Modulation Detector Empty
مُساهمةموضوع: IR Remote Control Modulation Detector   IR Remote Control Modulation Detector I_icon_minitimeالأربعاء أبريل 21, 2010 3:58 pm

Description
A circuit to extract and measure the modulated carrier of an Infra Red remote control. Note that the circuit does not physically separate control pulses from modulation, but amplifies the completereceived signal allowing the waveform to be displayed ideally on an oscilloscope or a frequency counter. Modulation frequencies between 1kHz and several MHz may be measured.

IR Remote Control Modulation Detector Mod_det


Basic IR Remote Control Info:
All remote controls employing Infra Red technology use digital control signals that are modulated with a higher frequency carrier wave. The carrier wave, which is invisible to the human eye is commonly modulated between 36 and 38KHz. However,some equipment i.e. Satellite decoders may use even higher modulating frequencies. The digital control signals are relatively slow compared to the carrier frequency, typically 100 to 200 bps (bits per second). The control pulses are sent in serial format and turn the carrier on and off.

Notes
Fortunately, the control pulses of a typical remote control are long, compared to the faster modulated IR carrier wave. This very fact allows at least a few complete waveforms to be captured and measured, either on an oscilloscope or with a digital counter. As the carrier is continually being modulated, the waveform will need to be displayed with a digital counter has a variable trigger or with an oscilloscopes manual trigger control. Light interference from nearby fluorescent light sources may also interfere with the signal,so, for this reason, I recommend to place the remote control within a few inches of the photodiode.

The detector is an IR photodiode, type TIL100. This is reverse biased via the 22k resistor and produces small changes in current when subjected to light in the IR spectrum. Ambient or steady light will produce a constant current through the photo diode, a remote control produces an alternating waveform. The input signal is capacitively coupled to the first BC549C amplifier stage via a 10n capacitor. The capacitor will stop ambient light from passing,but not changes in light intensity. A signal of a few microamps can be passed from the photo diode into the amplifier. The high current gain of a BC549C and a medium load resistor will produce a voltage waveform that may be suitably displayed on an oscilloscope at this point. The magnitude will vary with the proximity from remote control to photo diode and also with type of remote control, hence an accurate reading is not possible. For anyone with an oscilloscope set the volts/division control to maximum and work backwards to minimum sensitivity.

Displaying on a Frequency Counter
The lower sensitivity of a frequency counter requires the signal to be processed further. To remove the previous amplifiers DC bias voltage, but allow only a strong modulated carrier wave to pass the last stage operates in Class D mode. In Class D amplifiers, there are no bias components, the signal from the previous stage is used as the bias source. Therefore there will be no signal output at the collector of the rightmost BC549C under quiescent conditions, but only with a strong IR signal ( in close proximity to the photo diode). The output transistor will be on when a positive peak arrives, and off for a negative peak. This crude method has also turned the original sinusoidal waveform into a digital one, there will be some phase shift from input to output, but the period of the waveform can still be measured. The signal can be buffered even further, if needed, the black triangle represents one gate of a CMOS 4050 buffer. As control pulses are combined with the carrier, a frequency meter or counter is best set to measure the period of the wave, rather than the frequency. As frequency is the reciprocal of periodic time, divide 1 by the reading on the meter or counter. My own Maplin frequency counter, is shown below, displaying the result from an Aiwa Video remote control.

IR Remote Control Modulation Detector Counter


As can be seen (use a right click and choose your internet browsers view image) the periodic waveform is 26.11us. This equates to 1/26.11u = 0.0382 Mhz or 38.2KHz in the case of this Aiwa remote control.
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IR Remote Control Modulation Detector
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 مواضيع مماثلة
-
» Infa-Red Remote Control
» Infa-Red Remote Control
» Infra Red Remote Control Extender
» IR Remote Control Extender Mark 2
» IR Remote Control Extender Mark 3

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