What Causes the Heat in Your Vehicle's CD Player?

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SUMMARY

The primary source of heat in a vehicle's CD player is the audio amplifier, which can dissipate significant power compared to the laser used for reading CDs. While the laser operates at approximately 5 mW, the amplifier can draw up to 200W from the vehicle's 12V system, leading to considerable heat generation. The discussion also highlights that systems playing compressed audio formats like MP3 do not generate the same heat as CD playback, likely due to differences in power usage. Additionally, the heat generated by Blu-ray players was compared, noting that the wavelength of light used does not directly correlate with heat production.

PREREQUISITES
  • Understanding of basic electronics, specifically power consumption in audio systems.
  • Familiarity with CD and Blu-ray technology, including laser operation.
  • Knowledge of audio amplifier specifications and their impact on heat generation.
  • Basic principles of electromagnetic radiation and its relation to temperature.
NEXT STEPS
  • Research the power consumption and heat dissipation characteristics of various audio amplifiers.
  • Learn about the differences in laser technology between CD and Blu-ray players.
  • Investigate the thermal management solutions used in car audio systems.
  • Explore the impact of audio format compression on playback power requirements.
USEFUL FOR

Automotive audio engineers, electronics enthusiasts, and anyone interested in the thermal dynamics of audio playback systems in vehicles.

houlahound
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While changing a CD in my vehicle CD player I noticed the CD is quiet a few degrees above ambient after it has been playing for awhile, not measured just felt very warm to touch.

the question is what is the source of the heat?

I considered the LED but that makes no sense.

Is it the motor that rotates the CD, seems unlikely due to the air gap between the CD surface and the rest of the system?
 
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I would assume it is a combination of the laser/LED and the heat of the electronics. I think the laser is only about 5 mW in power, but I don't know how much power the rest of the electronics uses.
 
5mW seems like a lot of power?
I was unaware they were that strong or needed to be, why would that much power be required to read off a CD at such short range.the system playing radio or other formats eg mp3 does not generate the same heat as when playing the CD.

interested if Blu-ray generates more or less surface on the disc heat being a colder frequency than red on the CD.
 
houlahound said:
the system playing radio or other formats eg mp3 does not generate the same heat as when playing the CD.

MP3 files are compressed and take up MUCH less room than regular CD audio. It's possible that the disk drive doesn't leave the laser continually turned on to read the compressed data as it does with uncompressed audio. That's just a guess though.

houlahound said:
interested if Blu-ray generates more or less surface on the disc heat being a colder frequency than red on the CD.

A Blu-Ray DVD requires light around 400 nm in wavelength, which is on the blue/purple end of the spectrum. I know blue and purple are considered to be "cool" and red to be "warm" by many, but those concepts have nothing to do with heat.
 
"A Blu-Ray DVD requires light around 400 nm in wavelength, which is on the blue/purple end of the spectrum. I know blue and purple are considered to be "cool" and red to be "warm" by many, but those concepts have nothing to do with heat."but why not, they have everything to do with "heating" as per eg; incubators are red not blue, warmth from fire...etc, etc, etc.
 
houlahound said:
but why not, they have everything to do with "heating" as per eg; incubators are red not blue, warmth from fire...etc, etc, etc.

Incubators and fires emit light primarily in the IR range, which is where most of their heating comes from. This is because a hot object emits EM radiation along a spectrum, whose emitted power vs wavelength depends almost entirely on the temperature of the object. Very cold objects emit barely any radiation and the majority of it is at very long wavelengths. For example, the CMB spectrum is essentially identical to that emitted by an object just under 3 kelvin and sits primarily within the microwave band. You and I are much warmer and the radiation emitted by our bodies falls primarily in the long-wavelength part of the infrared band. Incandescent light bulbs are around 2,000 - 3,300 kelvin and while they emit lots of visible light, the majority of the radiation falls within the near-IR band.

Fire and incubator lights are cooler than a standard tungsten incandescent light bulb used for household lighting and thus they emit barely any visible light in the blue or green areas of the visible band, making them look red, orange, or yellow.

See this article: https://en.wikipedia.org/wiki/Black-body_radiation
 
houlahound said:
While changing a CD in my vehicle CD player I noticed the CD is quiet a few degrees above ambient after it has been playing for awhile, not measured just felt very warm to touch.

the question is what is the source of the heat?

Most in car systems have a CD player, radio and audio amplifier all in one unit. At sensible volume levels I think they draw a bit under 1A @ 12V. So potentially you might have several watts of heat being dissipated in a box that's not exactly well cooled.
 
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It is almost certainly the amplifier for the CD player. That has between a thousand and 100,000x more power than the laser.
 
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CWatters said:
Most in car systems have a CD player, radio and audio amplifier all in one unit. At sensible volume levels I think they draw a bit under 1A @ 12V. So potentially you might have several watts of heat being dissipated in a box that's not exactly well cooled.

and that would be on the extremely low side

consider a system with 4 speakers ( not uncommon in cars) and even a decent system at low power putting out say 30W per channel
there 120W of music power, power drawn from the 12V system will be around double that.
Lets err on the conservative side and say 200W from the 12V supply = 16.6 Amps

the power dissipation within the stereo unit is going to cause LOTS of equip heating
any heating effects of a 5mW laser wouldn't even be noticeable
Dave
 
  • #10
Makes sense. My old handheld CD player never noticeably heated up the CD. I'm sure it only used a few watts since it didn't have to drive speakers larger than headphones.
 
  • #11
thanks for replies and thoughts. just seemed like an interesting question to me.
 

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