12/20/2019 12:41:00 AM   By  Admin  in

Infrared radiations or infrared light are that category of electromagnetic radiations whose wavelength is longer than that of visible light. Thus these radiations can't be seen through human eyes. Most of the thermal radiation which is radiated by materials present at room temperature is infrared. Like all other electromagnetic radiation, infrared radiations also come with radiant energy and carry on both like a quantum particle (photon) as well as a wave

Infrared radiation was founded by Sir William Herschel in 1800. It was also known that marginally the greater part of the total vitality from the Sun was inevitably found to land on Earth as infrared. The balance between emitted and absorbed infrared radiation critically affects Earth's atmosphere.

Infrared radiation has found its use in scientific, law enforcement, industrial, medical, and military applications. The gadgets with night vision that utilizes dynamic close infrared brightening offer animals and people to be seen without the observer being recognized. The thermal imaging cameras having an infrared feature helps in finding out the loss of heat in insulated systems, to know which electrical equipment is getting overheated as well as to watch changing bloodstream in the skin. Civilians and military use infrared radiations for night vision, tracking, homing, surveillance and target acquisition.

The transmission of infrared radiation is possible only because of 2 components. One is the infrared emitter and the other one is the infrared receiver. This blog is all about Infrared Emitter. So let’s move forward for it.

 

Infrared Emitters

A clear line of sight is required for an infrared signal in order to work. If you are turning the face of an infrared remote control in the direction opposite to that of the equipment that needs to receive its signal then there is a high possibility that nothing is going to happen. The transmission of the signal is not going to be an effective one. To solve the above-mentioned problem, all the infrared system utilizes local infrared emitters. Basically, an infrared emitter is referred to as a remote control that is located in front of the gadget that you are using. It is associated with our control framework by a wire.

 

Placement of Infrared Emitter

You must place the infrared emitter on the front side of the gadget that you want to operate. It is also advisable to keep your infrared emitter just above the infrared receiver to support reliable functioning. If you are not able to get the exact location of your infrared receiver then you need to move the infrared emitter around while testing the remote to locate the best possible spot to mount it.

The acceptance signal is interfered due to strong sunlight. If you are placing it at a position with mini-mum exposure to sunlight, you will get the best result. When you are summing up to more than one infrared emitter to the infrared output, the strength of the infrared signal gets decreased with each addition. Thus, you must place infrared emitter at its proper spot.

This was all we have regarding Infrared Emitters. Hope you enjoyed going through the article. Brands that manufacture them are Everlight, Vishay and TT Electronics. Make sure to visit them using the links as provided. Thanks for reading.

View all our Infrared Emitter


12/20/2019 12:34:00 AM   By  Admin  in

Infrared radiations or infrared light are the categories of electromagnetic radiations whose wavelength is longer than that of visible light. Thus these radiations can't be seen through human eyes. Most of the thermal radiation which is radiated by materials present at room temperature is infrared. Like all other electromagnetic radiation, infrared radiations also come with radiant energy and carry on both like a quantum particle (photon) as well as a wave.

Infrared radiation was founded by Sir William Herschel in 1800. It was also known that marginally the greater part of the total vitality from the Sun was inevitably found to land on Earth as infrared. The balance between emitted and absorbed infrared radiation critically affects Earth's atmosphere.

Infrared radiation is absorbed and emitted by molecules when their vibrational and rotational movements are changed. Because of the change in the dipole moment, the vibrational modes in a molecule gets excited, making it a valuable recurrence run for investigation of these vitality states for atoms of the best possible evenness. Infrared spectroscopy helps in examining the transmission and absorption of photons in the range of the infrared spectrum.

Infrared radiation has found its use in scientific, law enforcement, industrial, medical, and military applications. The gadgets with night vision that utilizes dynamic close infrared brightening offer animals and people to be seen without the observer being recognized. The thermal imaging cameras having an infrared feature helps in finding out the loss of heat in insulated systems, to know which electrical equipment is getting overheated as well as to watch changing bloodstream in the skin. Infrared astronomy utilizes telescopes equipped with sensors to get into dusty regions present in space like the molecular clouds, find out substances like planets, and to get a good view of highly red-shifted objects from the initial days of the galaxy. Civilians and military use infrared radiations for night vision, tracking, homing, surveillance and target acquisition.

The transmission of infrared radiation is possible only because of 2 components. One is the infrared emitter and the other one is the infrared receiver. This blog is all about Infrared Receiver. So let’s move forward for it.

 

Infrared Receiver

A clear line of sight is required for an infrared signal to work. If you are turning the face of an infrared remote control in the direction opposite to that of the equipment that needs to receive its signal then there is a high possibility that nothing is going to happen. The transmission of the signal is not going to be an effective one. To solve the above-mentioned problem, all the infrared system utilizes local infrared emitters. An infrared emitter is referred to as a remote control that is located in front of the gadget that you are using. It is associated with our control framework by a wire.

It is important to have an infrared receiver along with an infrared emitter. An infrared radiation receiver or an infrared receiver is hardware that helps in sending information to some other device from an infrared remote control by decoding and receiving the signals. It is advisable to keep your infrared receiver just below the infrared receiver to support reliable functioning.

This was all we have regarding the infrared receiver. Brands that manufacture them are Everlight, Vishay and Sharp. Make sure to visit them using the links as provided.

View all our Infrared Receiver


12/20/2019 12:29:00 AM   By  Admin  in

An Injection Laser Diode (ILD) or a Laser Diode (LD) or a Diode Laser is a semiconductor that is much similar to that of an LED (Light Emitting Diode) where a diode siphoned legitimately with electrical current can lead to a lasing condition at the junction of a diode. Laser diodes can convert electrical energy directly into light. Initiated by a potential difference, the doped P-N transition offers joining of the electron with a hole (positive space). As the electron gets dropped to a low energy level from a high energy level, radiations are emitted in the form of photons. This is an example of spontaneous emission. Whenever the procedure is continued, stimulated emission can be generated.

The type of material used as semiconductors helps in determining the emitted beam's wavelength. Laser diodes that we use today range from ultraviolet to infrared spectrum. Laser diodes are the most well-known type of lasers created, with a wide scope of utilization that incorporates barcode readers, CD / DVD / Blu-ray disc recording/reading, optic communications, laser pointers, laser printing, light beam illumination, and laser scanning. Laser diodes can be utilized for general illumination with the help of phosphor (found in white LEDs).

 

Theory of Operation

A laser diode is electrically referred to as a PIN diode. The laser diode comes with the active region in the intrinsic (I) region, and the holes, as well as the electrons, are pushed into that region from the P and the N regions respectively. One of the very first studies on diode laser was carried out on simple P-N diodes. Today all lasers utilize the Double Hetero Structure implementation. Here the photons and the carriers are restricted so as to expand their odds for recombination and generation of light. In contrast to the regular diode, the main aim of a laser diode is to join up all the carriers in the intrinsic region and generate light. Therefore, laser diodes are created utilizing Direct Band Gap semiconductors. The epitaxial structure of a laser diode is formed by utilizing the technique of crystal growth, generally initiating from the N-doped layer and building up the intrinsic doped active layer, succeeded by the P-doped cladding, and a contact layer. Most often, the active layer comes with quantum wells that offer higher efficiency and lower threshold current.

 

Applications

  • Medical uses – In the field of medical science, especially that of dentistry have discovered several uses of diode lasers. It's small size and cheap cost along with user-friendliness make it very much alluring to clinicians for minor delicate tissue strategies.

 

  • Telecommunications, Spectrometry, and scanning – Laser diodes are used much widely in telecommunication as easily coupled and modulated light sources for carrying out fiber optics communication. It has also found its use in barcode readers. Visible lasers (generally red and green) are also very much popular as laser pointers.

 

This was all we have regarding laser diodes. Hope you enjoyed going through it. Brands that manufacture them are Finisar, OSRAM and TT Electronics. Make sure to follow them using the links as provided.

View all our Laser Diode


12/20/2019 12:25:00 AM   By  Admin  in

LED is a light-producing semiconductor which discharges light when electric current moves through it. The electrons present in the semiconductor get attached with electron holes and release photons (energy). The shade of the light is dictated by the vitality required for electrons to overcome the bandgap of the semiconductor. White light can be generated by a film of a light-emitting phosphor on the device.

The earliest LEDs, which was developed in around 1962, used to emit infrared lights of low intensity. Infrared LEDs have found its use mostly in remote control circuits which can be found in equipment linked with consumer electronics. Modern LEDs come with ultraviolet, infrared and visible wavelengths with the high light output.

LEDs have several advantages over an incandescent light. They are:

  • Long Lifetime
  • Small Size
  • Fast switching
  • Improved physical robustness

LEDs have found its use in automotive headlamps, traffic signals, plant growing light, aviation light, medical devices, lighted wallpaper, camera flashes, plant growing light, and advertising.

In contrast with a laser, the light that is released from an LED is neither highly monochromatic nor spectrally coherent. Still, its spectrum is adequately narrow that it can be recognized by the human eye as a saturated color.

 

Standard LEDs – Through Hole

LEDs are available in several different sizes and shapes. The category of LEDs that you will be using most is the through-hole LEDs with 2 legs. There are multiple LEDs that are hard and small to solder but these are simple and easy to use along with a breadboard provided that are available with long wires you can stick in. The light emitter is defended by a clear bulb. Consistently, through-hole LEDs have overwhelmed the market of high-brilliance LEDs, in light of their exceptionally intelligent structure with essential optics.

LED lamps or through-hole LEDs have mostly found its use in outdoor applications as they provide multiple benefits over standard surface mount (SMT) LEDs. Let's have a look at some of the characteristic feature of Through-Hole LEDs:

  • They are brighter.
  • They are very clear.
  • They are available either as tint-diffused or tinted for higher contrast ratios.
  • They have a diverse range of essential optic design.

Due to the availability of primary optics, LED lamps or through-hole LEDs are considered as one of the best choices regarding definition, brightness, and controlled viewing angles.

This was all we have regarding through-hole LEDs. Hope you enjoyed going through the blog. Brands that manufacture them are Everlight, Lumex, and Kingbright. Make sure to follow them using the links as provided. Thank you for reading.

View all our Standard LEDs – Through Hole


12/20/2019 12:20:00 AM   By  Admin  in

A photodiode is referred to that semiconductor equipment that transforms light into an electric current. The electric current is formed when photons get absorbed in photodiodes. This electrical equipment may consist of built-in lenses, optical filters, with small and large surface areas. One of the commonly and traditionally used solar cells known as electric solar power is an example of a large area photodiode.

Photodiodes are much similar to regularly used semiconductor diodes but they might be either uncovered or covered with an optical fiber connection or window to enable light to come and hit some of the sensitive device’s parts. To uplift the response of speed, several diodes intended for use as a photodiode utilizes a PIN junction in place of a P-N junction. A photodiode is designed basically to work in reverse bias.

 

Principle of Operation

As said earlier, a photodiode is a PIN structure or a P-N junction. Whenever a photon containing enough energy hits the diode, it forms an electron-hole pair. This process is called the photoelectric effect. If the assimilation happens in the depletion region of the junction, or one dispersion length away from it, these electron and holes are cleared from the junction by the electric field generated inside the depletion region. Thus the electrons go towards the cathode while the holes move toward the anode, producing a photocurrent. The net amount of current passing through the photodiode is equal to the sum of the dark current (current formed in the absence of light) and the photocurrent. Thus to get a maximum value of the device’s sensitivity, the dark current should be minimized.

 

Materials

The materials that can be utilized to create a photodiode is the basic to characterize its properties because only photons that are having enough energy to excite electrons across the bandgap of the material will generate notable photocurrents.

Materials that are used popularly to make photodiodes are:-

  • Silicon – Range of electromagnetic spectrum wavelength is from 190nm to 1100nm.
  • Germanium - Range of electromagnetic spectrum wavelength is from 400nm to 1700nm.
  • Indium gallium arsenide - Range of electromagnetic spectrum wavelength is from 800nm to 2600nm.
  • Lead (II) sulfide - Range of electromagnetic spectrum wavelength is from <1000nm to 3500nm.
  • Mercury cadmium telluride - Range of electromagnetic spectrum wavelength is from 400nm to 14000nm.

The noise generated by silicon-based photodiodes is less as compared with the germanium-based photodiodes. The reason behind this is that they have greater bandgaps.

 

Comparison with Photomultipliers

A photomultiplier is a device that can generate an electrical signal from the incident photons.

Advantages of photodiodes over photomultipliers:

  • Low noise.
  • Light in weight and compact.
  • It has a longer lifetime.
  • High voltage is not needed.
  • Quantum efficiency is high.

 

Disadvantages of photodiodes over photomultipliers:

  • The area is small.
  • Response time is slower.
  • Overall sensitivity is much low.

This was all we have regarding photodiodes. Hope you enjoyed going through it. Brands that manufacture them are Osram, First Sensor, and Vishay. Make sure to follow them using the links as provided.

View all our Photodiodes


12/20/2019 12:16:00 AM   By  Admin  in

A circuit breaker is an electrical switch that can be operated automatically and is designed to defend an electrical circuit from the harm that can result from a short circuit or by excess current from an overload. Its main function is to interrupt the flow of current whenever a fault is recognized. In contrast with a fuse that needs to be replaced after its first use, a circuit breaker can be made to reset to get back into its normal operation.

Circuit breakers are available in different sizes, from large switchgear made to defend high voltage circuits supplying an entire city to small gadgets that defends against individual household appliances or low current circuits. One of the general function of a circuit breaker to remove power automatically from a flawed framework is frequently curtailed as Over Current Protection Device (OCPD).

 

Types of Circuit Breakers

Circuit breakers can be classified into several features, like, construction type, voltage class, structural features and interrupting type.

  • Low Voltage – Low voltage circuit breakers ( < 1,000 V) are popular in commercial, industrial and domestic applications. They include:
  1. MCB or Miniature Circuit Breaker – It has a rated current up to 125 A. The trip characteristics are generally not adjusted.
  2. MCCB or Molded Case Circuit Breaker - It has a rated current up to 1600 A.

 

  • Solid State – Digital Circuit breakers or Solid-State Circuit breakers are a development in technology which guarantees advance circuit breakers. It offers multiple advantages, like, monitoring of circuits loads in a much better way, longer lifetime and cutting the circuit in fractions of microseconds.

 

  • Magnetic – A solenoid, whose force of pulling is proportional to the current, is being utilized in Magnetic Circuit breakers. The contacts of a circuit breaker are held closed using a latch. As soon as the current in the solenoid gets a value above the circuit breaker’s rating, the solenoids pull releases the latch.

 

  • Thermal Magnetic – These types of circuit breakers are most popular in Europe. It fuses both the methodologies i.e. the electromagnets are providing an instantaneous respond to short circuits and the bimetallic strips used responses to less outrageous yet longer-term over-current conditions.

 

  • Magnetic Hydraulic – A magnetic hydraulic circuit breaker takes the help of a solenoid coil to offer force to open up the contacts. It comes with a hydraulic time delay characteristic using a viscous fluid. A spring holds the core back until the current surpasses the breaker rating.

 

  • Ganged or Common trip breakers – To offer simultaneous breaking on the different circuits as a consequence of a fault on one of them we use ganged breakers.

These were some of the most important types of circuit breakers. There are other types of circuit breakers available in the market, like the medium voltage breakers, high voltage breakers, disconnecting circuit breakers, carbon dioxide high voltage breakers and sulfur hexafluoride high voltage breakers.

Hope you liked the article. Brands that manufacture circuit breakers are Carling, Eaton, and ETA. Make sure to follow them using the links as provided.

View all our Circuit Breakers


12/20/2019 12:11:00 AM   By  Admin  in

LED is a light-producing semiconductor which discharges light when electric current moves through it. The electrons present in the semiconductor get attached with electron holes and release photons (energy). The shade of the light is dictated by the vitality required for electrons to overcome the bandgap of the semiconductor. White light can be generated by a film of a light-emitting phosphor on the device.

The earliest LEDs, which was developed in around 1962, used to emit infrared lights of low intensity. Infrared LEDs have found its use mostly in remote control circuits which can be found in equipment linked with consumer electronics. Modern LEDs come with ultraviolet, infrared and visible wavelengths with the high light output.

LEDs have several advantages over an incandescent light. They are:

  • Long Lifetime
  • Small Size
  • Fast switching
  • Improved physical robustness

LEDs have found its use in automotive headlamps, traffic signals, plant growing light, aviation light, medical devices, lighted wallpaper, camera flashes, plant growing light, and advertising.

In contrast with a laser, the light that is released from an LED is neither highly monochromatic nor spectrally coherent. Still, its spectrum is adequately narrow that it can be recognized by the human eye as a saturated color.

 

High Power LEDs

High Power LEDs are referred to as those LEDs that have higher brightness as well as power and is much costly as compared to that of small LEDs. The most common rating of an LED is 20mA. Any LED that has a higher rating than this can be said to be a high power LED. Generally, the power rating is 10w, 8w, 5w, 3w, 1w, 0.5w, 0.25w and so on. The brightness of small power LEDs is in mcd while that of the high power LEDs is calculated in lm. Presently, high power LEDs are utilized in flashlights, automobile lights, lighting fixtures, etc. 

High Power LEDs can be categorized into 3 types:

  • The first type is classified according to the rating power. It can be 100W, 90W……10W, 5W, 1W, 0.5W.
  • The second type is the way it is packed. It includes simulated superflux epoxy package, large dimension epoxy package, MCPCB package, power SMD package, TO package, MCPCB integration package, etc.
  • The third type is according to the extent of luminous decay. It includes non-low as well as low luminous decay High Power LEDs.

High power LEDs are vitality productive structure which generates adequate lumen yields perfect for mainstream lighting applications. High Power LEDs provides one of the best solid-state light source allowing the user to find out some of the creative ideas related to lighting. The high power LEDs come in both O’Ring as well as Star configurations. Both of this configuration provides the best possible color temperature as well as color rendering capabilities. With an ostensibly related shading temperature of 3200K, nearest to the customary indoor light source, it is especially fit to architects and light planners.

This was all we have regarding High Power LEDs – White. Hope you liked going through it. Brands that manufacture them are Cree, Lumileds, and OSRAM. Make sure to check them out using the links as provided.

View all our High Power LEDs – Whites


12/20/2019 12:05:00 AM   By  Admin  in

A modular connector is a kind of electrical connector for cables and cords used in electrical appliances, like telecommunication equipment, computer networking as well as audio headsets.

Initially, during the 1960s, the modular connector was made for utilization on some Bell System telephone sets. A similar category of them found its use in the simple interconnection of client-provided phone supporter premises hardware to the telephone network. In 1976 the FCC (Federal Communications Commission) mandated an interface registration system where they were popularly called registered jacks. The comfort of earlier presence for planners and convenience prompted an expansion of modular connectors for several other applications. Applications that initially used an expensive and bulkier connector have changed over to modular connectors. Presently the most popular applications of this equipment are Ethernet and telephone.

 

Nomenclature

A modular connector is more popularly known as RJ connector, Western Jack and Plug and Modular Phone Jack and Plug. The term 'modular connector' came from its initial utilization in modular wiring equipment of telephone components in the 1960s by the Western Electric Company. This includes the 4P4C used in handset connectors and the 6P2C used in telephone lines.

Registered Jack designations depict the wiring and signal utilized for data and voice correspondence at client confronting interfaces of the public switched telephone network. To refer to the physical jack, a registered jack number is used. For example, the 4P4C connector is inaccurately called RJ22 or RJ9. Likewise, the 8P8C connectors are sometimes erroneously known as RJ45. A popular use of these types of connectors is Ethernet over twisted pair.

 

History

In the middle of the 1960s, some of the first modular telephone connectors came into the market. It was made by AT&T for the line cords of the Trimline telephone as well as for plug-in handset. Driven by the interest for numerous sets in homes with different cord lengths, the Bell System brought customer connectable part telephones and kits which was sold by Phone Center stores. In 1976, these modular connectors were institutionalized broadly in the United States by the FCC's (Federal Communications Commission Registration Interface Program.

 

Gender

Modular connectors comes in gender.

  • Male is the plug.
  • Females are the jacks and sockets.

Cords and cables are terminated using plugs. On the other hand, jacks offer a fixed location on the surface of panels, equipment, and walls. Apart from the telephone extension cord, cables having a jack at one end and a modular plug on the other are the rarest. Rather, cables are typically associated utilizing a female to female adapter, consisting of 2 jacks wired back to back.

Modular connectors are constructed to latch together. As soon as the plug gets inserted inside a jack, the plug is locked by a plastic tab such that it can’t be pulled out. To expel the plug, the hooking tab must be discouraged against the plug to clear the locking edge.

This was all we have regarding the modular connector. Hope you liked it. Brands that manufacture them are TE Connectivity, Molex and Amphenol. Make sure to follow them using the links as provided.

View all our High Speed / Modular Connectors


12/19/2019 11:55:00 PM   By  Admin  in

Data conversion is a technique to convert data from one format to another. All through a PC domain, information is encoded in an assortment of ways. For instance, PC equipment is based on specific guidelines, which necessitates that information contains, for example, parity bit checks.

Likewise, the operating system present in the computer is based upon certain standards of the file and data handling. Also, each program present in the computer manages data differently. Whenever any of the above variables are altered, data needs to be changed over somehow or another before it tends to be utilized by an alternate PC, program or operating system.

Indeed, various variants of these components, for the most part, include various data structures. Like for example the conversion of bits from one format or another is a data conversion.

Data conversion might be as easy and simple as the text file conversion from one character encoding framework to another. It can be even much more complex, like that of the conversion of audio file format, office file format, or the conversion of image formats.

Let's have a check at some of the equipment that helps in Data conversion. These are termed as Data conversion module.

Data Conversion Modules 4CH 12BIT ULTRA-HIGH SPEED A/D CARD

 

 

Data Conversion Modules 24BIT 432KS/s 2CH 216KS/s 2CH AO CARD

 

 

Data Conversion Modules MCR-DAC 8/I-4/BUS

 

 

Data Conversion Modules 100MS/s Arbitrary Waveform Generator

 

Data Conversion Modules cPCI-9112 MODULE w/ REAR I/O

 

Data Conversion Modules ACL-8316 WITHOUT D/A CHANNEL

 

There are many techniques for converting data inside the computer. This might be consistent, as on account of moving up to a more up to date form of a PC program. The conversion of the data might also need some special program segments, or it might include an intricate procedure of experiencing intermediate stages. It may also involve “importing” as well as "exporting" process, which might consist of converting to and from a comma-separated or tab-delimited text files.

This was all we have regarding Data Conversion Modules. Hope you enjoyed going through the article. Brands that manufacture them are ADLINK Technology, 3M and Advantech. Make sure to follow them using the links as provided. Thank you for reading.

View all our Data Conversion Module


12/14/2019 5:18:00 PM   By  Admin  in

XLR Connector is a kind of electrical connector one can get with professional video, audio and stage lighting devices. This kind of connector has a circular design with 3 to 7 pins. They are primarily used with balanced audio interconnection but have also found its use in low-voltage power supplies, lighting control, and other many more applications. Several manufacturers make XLR connector having an international standard for dimensions, IEC 61076-2-103. They are the same as the littler DIN connector, however, they are not physically good with them.

 

Design

XLR connectors come in both female as well as male versions in both chassis and cable mounting design (total 4 styles). This is a bit unusual as several other designs of connectors discard one of the styles.

The female XLR connector is designed in such a manner that at first pin 1 is connected (earth pin) before other pins come in contact whenever a male XLR connector is inserted inside.

The number of pins is not the same in all XLR connectors. By 2016, mini XLR connector comes with at most 8 pins and a normal XLR connector comes with at most 10 pins.

 

Patterns and Applications

  • 3-pin (XLR3)

One of the most commonly used XLR connectors is the 3-Pin XLR connectors. It is mostly used in professional microphones. Earlier this kind of connector was used in connecting loudspeakers. XLR3 has a current-carrying capacity of 15 Amperes and can accept a 1.6mm wire which is suitable for several loudspeakers but they are now replaced by Speakon Connectors.

XLR3 are now used in rechargeable devices like scooters and wheelchair. Here these connectors work at a potential difference of 24Volts and carry 2 to 10 Amperes of current. At last, they are also utilized for DMX512. DMX512 is commonly used in controlling the lightening and effects of a stage.

 

  • 4-pin (XLR4)

4-pin connectors are the fundamental connector used in intercom headsets. For example, headsets made of Telex and ClearCom. 2 pins are utilized for unbalanced microphone signal and 2 pins for mono headphone signal.

XLR4 is also used in DC power connections for video and film cameras. Other uses of these pins are in AMX analog lighting control, some pyrotechnic equipment and scrollers.

 

  • 5-pin (XLR5)

It is a standard connector for DMX512 lighting control. It is also used in stereo or dual-element microphones and stereo intercom headset.

 

  • 6-pin (XLR6)

6-pin XLR connectors have found its utilization in stage lighting control applications and dual-channel intercom systems.

 

  • 7-pin (XLR7)

7-pin XLR connectors help in connecting tube condenser microphones with their power supplies which carry polarization voltage, signal, and heater.

 

  • PDN

The PDN Connector, popularly known as the Loudspeaker Cannon is used in connecting loudspeakers and audio power amplifiers.

This was all we have regarding XLR connectors. Hope you like going through the article. Brands that manufacture XLR connectors are Neutrik, Switchcraft, and Amphenol. Make sure to follow them using the links provided by us.

View all our XLR Connector


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