Pro-Audio XLR 3 Pin Female to RCA Male Cable
Pro Audio Cable - XLR 3 Pin Female to RCA Male Cable
XLR to RCA cables are typically used for analog signals, primarily audio. These cables are commonly used on CD players, microphones, amplifiers, instruments, speakers, and much more. This cable features a nickel plated 3 pin XLR female and gold plated RCA male. The ultra-flexible 7mm PVC jacked reduces cable kinking and helps prevent damage to the connectors. Internally this cable is made from 22 AWG twisted pair cable wrapped in an aluminum foil shield and 60% copper braid for maximum shielding from EMI/RFI interference. Pro-audio cables are perfect for novice and professional musicians.
Features:
- Connector A: Nickel plated 3 Pin XLR Female
- Connector B: Gold plated RCA Male
- 22AWG Twisted Pair construction
- Foil shield and 60% copper braid
- Strain relief
- 7mm PVC jacket
- Connects unbalanced line outputs to balanced line inputs
Proposition 65
WARNING: This product can expose you to chemicals including phthalates, which is known to the State of California to cause cancer and birth defects or other reproductive harm. For more information, go to www.P65Warnings.ca.gov
RoHS*
Directive on the restriction of the use of certain hazardous substances in electrical and electronic equipment in the European Union. It stands for Restriction of Hazardous Substances Directive.
REACH*
REACH, a European Union regulation addresses the production and use of chemical substances and their potential impacts on both human health and the environment. It stands for Registration, Evaluation, Authorisation, and Restriction of chemicals.
WEEE*
The WEEE Directive set collection, recycling and recovery targets for all types of electrical goods in the European community. It stands for Wate Electrical and Electronic Equipment Directive.
* The following information is for information purposes only. It does not guarantee that the product adheres to the following standards. Please check the product description for specific certifications.
Q: What are XLR Cables commonly used for?
A: XLR Connectors are commonly used for professional audio video and stage lighting equipment.
Q: What makes an XLR audio cable and DMX cable different?
A: The XLR audio cable is designed for audio frequencies (low frequencies) and is a low impedance (75 Ohm) high capacitance cable. DMX data cable is designed for a wide bandwidth high frequency data stream it is a higher impedance (110 Ohm) and low capacitance cable. In the DMX system this impedance mismatch can result in intermittent problems due to a distortion of the waveform of the DMX bit stream. You may have flickering LEDs scroller miscue or a twitching moving light. Also some XLR audio cables tie the signal return and shield drain wire differently than we tie the twisted pair return within a DMX cable. This may introduce a potential grounding problem in your system.
Q: What is a balanced cable and what makes them different then an unbalanced cable?
A: Balanced refers to a “three-legged IN type of electrical signal that has two legs independent of ground. One is generally considered positive and the other negative in voltage and current flow with respect to ground. Both legs carry the signal. The benefit is that any noise that gets induced into the line will be common to both the positive and negative sides and is thus canceled when it arrives at its destination assuming the destination is balanced. Balanced lines are generally best for long cable runs due to their ability to reject induced noises. XLR and TRS type cables are designed to transmit balanced audio from one balanced device to another.
Unbalanced cables are less complicated and less expensive but they have limitations. Any audio signal requires two wires or conductors to function. In an unbalanced cable situation one of those conductors is used to carry both the audio signal and ground (shield). Unbalanced cables are much more susceptible to induced noise problems than their balanced counterparts because any induced noise in one conductor is not canceled by similar noise in the other conductor and may be carried with the signal into connected equipment. In general unbalanced lines should be kept as short as possible to minimize potential noise problems.
