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  • Contents

Ⅰ Introduction

BNC connectors have a bayonet-style coupling mechanism that allows for quick connection and disconnects while also providing positive locking. Mating takes only a quarter-turn of the coupling nut. BNC RF connectors have a classic, dependable design that allows them to accommodate a wide range of RG and industry-standard coaxial cables in a variety of termination styles.

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Ⅰ Introduction

Ⅱ What is a BNC Connector?

Ⅲ BNC Connector Related Video:

Ⅳ BNC Connector Features and Benefits

Ⅴ BNC Connector Applications

Ⅵ Related Products

Ⅶ 75 ohm vs 50 ohm

7.1 Applications

7.2 50 Ohm and 75 Ohm Cables: Differences / Distinctions

7.3 Why 50 Ohm and 75 Ohm?

7.4 Specifications

Ⅷ Other Types of BNC Connector

Ⅺ SDI vs BNC

9.1 Definition: SDI vs. BNC Cables

9.2 BNC Connectors on SDI

Ⅹ FAQ

 

Ⅱ What is a BNC Connector?

Paul Neill of Bell Labs and Carl Concelman of Amphenol created The Bayonet Neill Concelman (BNC) connector. The original purpose of the BNC connector was for military applications, but it is now primarily used in the broadcast market. This connector has evolved to keep up with the changing industry landscape, and it now provides the 12G SDI performance required in 4K and Ultra-HD applications. BNC connector types for coaxial cable have been widely adopted and continue to be a popular choice for current and next-generation video technology.

 

 

BNC Connector Video Descirption: This short video demonstrates how to connect a crimp style BNC connector to RG-58 50-ohm coax. Other crimp-style coaxial connectors will be installed in a similar manner. It should be noted that the connectors are specific to the type of coax being used, and having the proper crimping tool is necessary. Optionally (carefully) solder the center pin, and finish with heat shrink tubing for a clean professional look.

 

Ⅳ BNC Connector Features and Benefits

  • Customers can match impedance to system requirements using the bayonet coupling mechanism, which provides positive, quick mating and un-mating. 50 and 75 ohm impedance designs are available.
  • Military, industrial, and commercial connectors are available.
  • Many common BNC coaxial cable designs are available.
  • Female and male BNC configurations

 

Ⅴ BNC Connector Applications

  • Antennas
  • Broadcast (75 Ω)
  • Telecommunications
  • Automotive
  • Computers/LANs
  • Medical Equipment
  • Satcom
  • Base Stations
  • Cable Modems
  • Instrumentation
  • Military/Aerospace

 

                                                    

                   BNC Adapters                                                         BNC Accessories                                 BNC Cable Assemblies

 

Ⅶ 75 ohm vs 50 ohm

BNC connectors are typically available in 50 ohms and 75-ohm versions, which are matched for use with cables of the same characteristic impedance. The 75-ohm connector is slightly different in dimensions from the 50-ohm variant, but the two can be made to mate.

  • BNC cables and connectors are available in 50 Ohm and 75 Ohm specifications.
  • ohm cables/connectors are designed for high-quality digital video (CCTV) and can scale their output based on the input.
  • 75-ohm cables can also be used effectively on older analog video formats, making them more versatile and flexible in any situation.
  • When low signal loss is critical, 75 Ohm BNC cables/connectors are used.
  • 50-ohm cables and connectors are compatible with older analog video formats. If you are looking for high-quality video output, 50 Ohm will not provide it.
  • Connecting the two types of connectors is possible, but it is not recommended: mixing will not result in the best output.
  • With 50 Ohm cables, 50 Ohm BNC connectors are used. With 75 Ohm cables, 75 Ohm connectors are used.

 

7.1 Applications

  • 75 Ohm BNC applications include satellite, high-definition televisions, and cable TV receiver boxes.
  • Receivers for AM/FM radio.
  • Police scanners. RG-179 coaxial cable has a 75 Ohm BNC connector and is used in high-temperature environments.

Applications of 75 Ohm BNC Cables using RG-179

  • A 75 Ohm BNC connector is used on the RG-179 coaxial cable.
  • Is designed specifically for high-temperature environments: Finished with a TFE taped outer jacket. It can withstand temperatures of up to 200 degrees Celsius.
  • RG-179 is commonly used in high-temperature applications such as:
  • Hospital and clinic medical equipment
  • Video surveillance cameras are applied for safety purposes.
  • Audio surveillance systems.

 

 

7.2 50 Ohm and 75 Ohm Cables: Differences / Distinctions

The impedance of 50 Ohm and 75 Ohm coaxial cables is measured in Ohms, the unit that measures electrical resistance. The radio frequency signals sent down these cables are alternating current (AC) rather than direct current (DC) (DC). The magnitude and phase of the transmitted signal are countered and contained by the cable as it flows down its length with AC signals. As a result, the impedance rating for coaxial cable is as follows:

  • Resistance: the amount of resistance to current flow.
  • The amount of voltage generated by the magnetic field of an electrical current is referred to as inductance.
  • Capacitance is the amount of charge contained or retained within a cable while current flows.
  • Coaxial cable is designed specifically for signal transmission and is structured to balance resistance, capacitance, and inductance for consistent performance in radio frequency circuits. The impedance of a specific coaxial cable is determined by its composition, which includes the dielectric constant of the insulating layer and the radii of the outer and inner conductors.

 

7.3 Why 50 Ohm and 75 Ohm?

For most radio frequency applications, the use of 50 and 75 Ohms as standard characteristic impedances for coaxial cable is essentially a compromise between optimal power handling and the lowest possible signal loss. These critical impedances were discovered through extensive testing in the early twentieth century. These experiments discovered that, while 30 Ohm cable provided excellent voltage and power handling, 77 Ohm coax provided the lowest attenuation.

As a result, 50 Ohm coaxial cable would have a good power handling profile as well as low attenuation. Over the following decades, 50 Ohm coax emerged as the primary solution for cable with good power handling, particularly for 100 watts or more. It is frequently used for antenna cables in amateur and broadcast radio, cellular and wireless networking applications involving transmitters and transceivers.

For applications requiring low signal loss, capacitance, and signal distortion, 75 Ohm cable was preferred. It is the coaxial cable of choice for applications requiring efficient signal transfer with low loss. These cables are frequently used in applications that require a connection to a receiver, primarily video applications that are low power and do not require the power handling of a 50 Ohm cable. Cable television, HDTV, and CCTV are examples of important applications. 75 Ohm coax can also be used for coaxial digital audio, allowing it to transfer audio, for example, in a home theater system.

 

7.4 Specifications

Electrical 50 Ohm 75 Ohm
Impedance 50 Ohm 75 Ohm
Frequency Range DC - 4 GHz (DC -12 GHz on Extended Range Designs) DC- 4 GHz (DC - 12 GHz on Extended Range Designs)
Voltage Rating 500 Volts RMS Max Continuous 500 Volts RMS Max Continuous
Dielectric Withstanding Voltage 1500 VRMS Max 1500 VRMS Max
VSWR (Return Loss)    
     DC - 4 GHz 1.3 (-18 dB) Max 1.5 (-14 dB) Max
     12G Products: DC - 6 GHz   1.22 (-20 dB) Max
     12G Products: 6 - 12 GHz   1.43 (-15 dB) Max
Insulation Resistance  5000 MΩ Min 5000 MΩ Min
Center Contact Resistance 1.5 mΩ Min 1.5 mΩ Min
Outer Contact Resistance 0.2 mΩ Min 0.2 mΩ Min
RF Leakage 55 dB Max @ 3 GHz 55 dB Max @ 3 GHz
Insertion Loss 0.2 dB Max @ 3 GHz 0.2 dB Max @ 3 GHz
Power Handling 316 W Max @ 1 GHz @ 25 ºC 316 W Max @ 1 GHz @ 25ºC
Evironmental    
Temperature Range −65°C to +165°C −65°C to +165°C
Thermal Shock MIL-STD-202, Method 107 (Test Condition G), except high temp test @ +200⁰C MIL-STD-202, Method 107 (Test Condition G), except high temp test @ +200⁰C
Corrosion MIL-STD-202, Method 101 (Test Condition B) - 5% Salt Solution MIL-STD-202, Method 101 (Test Condition B) - 5% Salt Solution
Vibration MIL-STD-202, Method 204 (Test Condition D) MIL-STD-202, Method 204 (Test Condition D)
Mechanical Shock MIL-STD-202, Method 213 (Test Condition G) - No Discontinuity Permitted MIL-STD-202, Method 213 (Test Condition G) - No Discontinuity Permitted
Moisture Resistance MIL-STD-202, Method 106 MIL-STD-202, Method 106
Altitude MIL-STD-202 Method 105 (Test Condition C) MIL-STD-202 Method 105 (Test Condition C)
Mechanical    
Mating Cycles 500 Min 500 Min
Coupling Mechanism Bayonet Bayonet
Interface Specification MIL-STD-348 MIL-STD-348

 

 

 

 

Ⅷ Other Types of BNC Connector

There is also a threaded version of the BNC connector known as the TNC connector (Threaded Neil-councilman). The connector has a 50 impedance and works best in the frequency range of 0–11 GHz. When it comes to microwave frequencies, it outperforms the BNC connector.

50-OHM

 

Twin BNC or twinax

Twin BNC (also known as Twinax) connectors have the same bayonet latching shell as regular BNC connectors but have two independent contact points (one male and one female), allowing the connection of a 78 ohm or 95 ohms shielded differential pair such as RG-108A.

They have a maximum frequency of 100 MHz and a voltage of 100 volts. They are incompatible with standard BNC connectors. Twinax connectors are ideal for computer network applications because they feature keyway polarization, which ensures system integrity and prevents signals from being mixed.

Twin BNC

 

Triaxial

Triaxial (or Triax) connectors are a type of BNC connector that carries a signal, a guard, and a ground conductor. Triax connectors are used in applications that require maximum RF shielding and minimal noise radiation. These are used in sensitive electronic measurement systems such as Keithley Instruments. Early triaxial connectors had only an extra inner conductor, but later triaxial connectors have a three-lug arrangement to prevent accidental forced mating with a BNC connector. Adaptors are available to allow some interconnection between triaxial and BNC connectors.

Triaxial

 

 

Miniature connectors

Mini BNC and High-Density BNC are smaller versions of the BNC connector (HD BNC). While retaining the original electrical specifications, they have smaller footprints, allowing for greater packing density on circuit boards and equipment backplanes. Because of their true 75 ohm impedance, these connectors are suitable for HD video applications. These BNC connectors are widely used in electronics, but in some applications, they are being replaced by LEMO-00 miniature connectors, which allow for much higher densities. For higher density products in the video broadcast industry, the DIN 1.0/2.3 and HD-BNC connectors are used.

 

Miniature connectors

Ⅺ SDI vs BNC

9.1 Definition: SDI vs. BNC Cables

Bayonet or BNC? Neil Concelman connectors are commonly found on coaxial cables. Male-type connectors are attached to the ends of basic BNC cables. It has a pin that connects to the cable conductor in the center.

The rotating ring on the outside of the BNC cable tube is capable of locking to female connectors. This type of connector is commonly found on monitors. It aims to improve the accuracy of signals, particularly those sent by the video adapter.

Two HD SDI-video cables

SDI, or Serial Digital Interface, on the other hand, is commonly used to transmit uncompressed and unencrypted video signals. This interface type is also used for broadcasting standard and high definition signals. These can be accompanied by audio and video signals.

This interface type is primarily used by broadcasting facilities. It also includes closed captions, test signals, and content identification.

 

9.2 BNC Connectors on SDI

SDI is a signal transport format, whereas BNC is a connector format. SDI employs coaxial cables, which are typically terminated with a BNC plug.

SDI transports 16 channels of pulse-code modulation (PCM) audio and uncompressed digital video. It transmits over a 75 Ohm coaxial cable with a BNC connector.

SDI cables can no longer handle signals with bandwidths in the gigahertz range. To handle this digital signal, it must use a proper BNC connector. BNC connectors, on the other hand, can come in a variety of sizes. As a result, we recommend that you locate a BNC connector that is compatible with SDI.

Despite its utility, the main disadvantage of using SDI is that it is not supported by a large number of consumer and prosumer devices. Despite this, some manufacturers use converter boxes to convert SDI signals. SDI has a limited number of resolutions that it can support.

In general, a supporting BNC connector on your SDI cable is required to allow for greater signal bandwidth. Furthermore, the majority of users connect these two connectors by soldering or securing the locks.

In summary, various types of equipment, such as radios and televisions, use BNC coaxial cable connectors. The connector has a single pin in the center. Furthermore, SDI makes use of this cable to accommodate signals that require a large amount of bandwidth. This interface is used by a variety of devices to transmit uncompressed or unencrypted digital signals.

SDI alone is not recommended because signals with high bandwidth require a BC connector. As a result, because there are different dimensions for this type, it is critical to find a proper fit of the BNC connector to SDI.

Ⅹ FAQ

1. What does BNC stand for in connectors?

Bayonet Neill–Concelman

The BNC (Bayonet Neill–Concelman) connector is a miniature quick connect / disconnect radio frequency connector used for coaxial cable. It features two bayonet lugs on the female connector; mating is fully achieved with a quarter turn of the coupling nut.

2. What is the difference between BNC and F connector?

BNC connectors are bayonet type connectors, commonly used in CCTV systems. They are the most suitable connector for use with RG59/U cable. ... F-Type connectors are used for CATV, SATV and Digital TV in conjunction with either RG6 or RG11 cables.

3. What is BNC?

(Bayonet Nut Coupling) A commonly used plug and socket for audio, video and networking applications that provides a tight connection. Using a mount somewhat similar to the way a bayonet (knife) is mounted onto the end of a rifle, BNCs are used to connect a variety of different coaxial cable types.

4. Is BNC a media connector?

BNC connectors are associated with coaxial media and 10Base2 networks. BNC connectors are not as common as they once were, but still are used on some networks, older network cards, and older hubs. Common BNC connectors include a barrel connector, T-connector, and terminators.

5. Are BNC connectors still used?

You might remember the BNC connector that was used for component connections in the 2000s and before. It has been used for SD video and HD video, but it's rarely seen in consumer electronics today. ... While N-connectors are still around, the C connector is no longer used.

BNC connectors—or Bayonet Neill-Concelman—are a common type of RF connector that utilizes BNC cables. ... A BNC connector connects the analog video components from the camera to a TV monitor or DVR. It snaps firmly into place, providing for a quality and secure connection.

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