Remote powering in audio

Remote powering implies that the power equipment is not local but some distance away.  This article is remote powering audio edition. It can be seen a continuation of my earlier Remote powering over communications cabling posting series.

Microphone: Plug-in-power

Plug-in power is designed to power electret microphones through same audio cable that carries audio. Most lavalier (tie-clip) microphones, consumer video camera microphones and microphones used with computer soundcards are electret microphones. Typical electret condenser microphone capsule is a 2 terminal device which approximates to a current source when biassed with around 1-9 volt and routinely consumes usually 0.5 mA or less current (there are also 3 pin capsules with separate power and audio out pins). This power is consumed by a very small preamplifier built into the microphone capsule which makes the conversion of very high impedance source of the electret element itself and the cable which needs to be driven.
Usually the microphone is powered from 1.5V-5V power source through a resistor which has resistance of few kilo-ohms. There are several variations how this power is connected to 3.5 mm jack.The power is typically wired to the same pin that carries the audio, and this being the tip for mono mics and tip+ring for stereo microphones. The mic input in PC sound cards and computers with separate mic connector the power is connected to the ring and audio is carried on the tip. For more details read my Powering microphones web page. Plug-in-power (PiP), is the low-current 3 V to 5 V supply provided at the microphone jack of some consumer equipment, such as portable recorders and computer sound cards. It is also defined in IEC 61938.

Microphone: Phantom power

 

Links to more material:

Microphone: Digital microphones

Digital microphones are another story. Digital microphones complying with the AES 42 standard may be provided with phantom power at 10 volts, impressed on both audio leads and ground (up to 250 mA ). USB microphones are powered with normal USB power (5V 500mA).

Speakers cables

Speaker level signals are post amplification signals that drive passive loudspeakers. The signal is AC signal (typically 20Hz-20kHz)that has same waveform and the audio signal had. The signal level and current depends on the power being fed to the speaker element. For example, 1,000 watts feeding an 8-ohm load would require an 89.4 volt level (with a complementary current of 11.2 amps). There is limited cable length and longer the cable needs to be the thicker it needs to be to avid too much resistance causing issues with speaker performance.

There is also 70 volt speaker system in use. 70 volt systems are generally used in commercial applications where many speakers needs to be run from one amplifier. It is also called high impedence speaker system. It allows using  long cable runs of relatively small gauge (usually 20-24 gauge) do not significantly affect the output You would want to use this type of system if you plan on powering say 10 speakers with one amplifier(one 100W amplifier can power ten 10W speakers).  A 70 volt system is used in restaurants, small bars, department stores etc. 70 volt is common in the US, but in other countries there  other high impedance system, including 25 and 100 volt.

long cable runs of relatively small gauge (usually 20-24 gauge)Read more at: http://www.epanorama.net/documents/audio/70volt.html

70 volt systems are generally used in commercial applications where many speakers needs to be run from one amplifier. It is also called high impedence speaker system.Read more at: http://www.epanorama.net/documents/audio/70volt.html

USB

USB (abbreviation of Universal Serial Bus), is an industry standard that establishes specifications for cables, connectors and protocols for connection, communication, and power supply between personal computers and their peripheral devices.

The Universal Serial Bus connection is commonplace and allows you to connect and record instruments, microphones, and audio inputs to a computer. USB interfaces can be mains or bus powered depending on the model.

The USB 2.0 max current is 0.5A for normal USB use, while USB 3.0 is 0.9A. Higher currents can use used for charging applications using normal USB connectors (typically up to around 2A) and with USB type C connector (up to 20V 5A).

Intercom

Intercom is a private telecommunciation system that allows typically two or more locations to communicate with each other like telephone does. Many productions which needs co-operation of more than a few people need special intercoms that cover many users. Intercom systems used in TV and stage productions are usually headset type intercoms connected to one line using party line arrangement.

The most commonly used intercom system I have seen in use is Clear-Com party line system that uses 3 pin XLR connectors for the line. It uses the following pin-out on XLR conector: Pin 1: Common; Pin 2: PL Power (+28VDC); Pin 3: Line (Audio). The power supply can typically supply power maximum up to 2A.

Related links:

http://www.epanorama.net/links/intercom.html

http://www.windworksdesign.com/blog/comclone-shop-built-intercom-interface/

http://www.rcrowley.com/rcrowley.com/comclone/?

 

11 Comments

  1. Tomi Engdahl says:

    Phantom Power Mic 6 Miles Cat5e Cable??
    https://www.youtube.com/watch?v=SorO-QpqYRU

    00:00 Intro and setup
    02:14 100 meter (3 28 feet) test Shure SM58, AKG C414 and Neumann U89
    04:24 800 meter (1/2 mile) test Shure SM58, AKG C414 and Neumann U89
    06:57 1600 meter (1 mile) test Shure SM58, AKG C414 and Neumann U89
    09:22 2400 meter (1.5 mile) test Shure SM58, AKG C414 and Neumann U89
    11:46 4800 meter (3 mile) test Shure SM58, AKG C414 and Neumann U89
    14:21 6400 meter (6 mile) test Shure SM58 and Neumann U89 ( I tested the C414 as well and it worked without issues, I skipped it as it performed the same as the U89)
    16:21 Outro

    Reply
  2. Tomi Engdahl says:

    Don’t Let Phantom Power Kill Sound Cards – Lick Test
    https://www.youtube.com/watch?v=W42MRnJhXrk

    48 volt phantom power that is common in pro audio can kill the sound card in your laptop or computer. Here is a quick and easy test to make sure you do not accidentally damage your valuable computer.

    Reply
  3. Tomi Engdahl says:

    Dangers & Solutions – Audio Phantom Power + Demo
    https://www.youtube.com/watch?v=_8UTGcuAtd0

    What are the dangers and solution to using phantom power?

    How does phantom power work? What happens when sending phantom from more than one console to a mic? What happens sending phantom down an unbalanced mic cable? Can phantom power destroy a mic?

    00:00 What is phantom power?
    01:57 Phantom power is high voltage, low current
    02:59 Phantom measurement setup
    04:21 Measuring phantom power output
    04:56 Phantom power wiring
    06:15 How phantom powers a condenser mic
    08:43 Plug in a condenser mic an measure phantom
    10:40 Dynamic mic wiring
    12:23 Phantom to a dynamic mic
    12:36 Dangers of phantom on dynamic mics
    14:56 Phantom from two consoles wiring description
    15:37 Impact on phantom when second console is connected
    17:03 Test and measure phantom sent from two consoles to the same mic
    18:48 Parallel vs series
    20:32 Phantom and isolation transformers
    21:15 Summary

    Reply
  4. Tomi Engdahl says:

    https://www.diyaudio.com/community/threads/power-led-from-48-volt-phantom-power.194283/

    The title says it all. I’d like to power an led using phantom power

    LEDs drop about 1.5 – 3.5 volts, depending on the type, colour, size, brightness etc. Most modern LEDs will glow quite brightly at only about 5 mA. The math is easy to calculate the value of the required series dropper resistor:

    R dropper = ( Vsupply – Vled ) / Iled

    eg. 48 volts phantom supply, Led drops 2 volts approx., go for 5 mA ( = 0.005 Amps)

    Therefore dropping resistor = ( 48 – 2 ) / 0.005 = 9,200 Ohms.

    Go for the nearest 5% preferred value, 10K Ohms, or 8.2K Ohms

    The current can be easily calculated for a given resistor:

    Iled = ( Vsupply – Vled ) / Rdropper

    eg. ( 48 – 2 ) / 8200 = 0.0056 Amps = 5.6 mA.

    You should also calculate the power dissipated in the resistor:

    Power = ( Vsupply – Vled) * Iled = ( 48 – 2 ) / 0.0056 = 0.2576 Watts

    So you should use a 0.5 W rated resistor for long term reliability.

    QED.

    Reply
  5. Tomi Engdahl says:

    An intercom system from rotary telephones
    An all-analog circuit to drive a ringing intercom system
    https://hackaday.io/project/189587-an-intercom-system-from-rotary-telephones

    Reply

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