Tuesday, September 30, 2025

High-Frequency Precision with 1.85 End Launch Connector Solutions

 

Understanding the Role of a 1.85 End Launch Connector in RF Systems

In high-frequency RF and microwave systems, a 1.85 end launch connector is very important. It was made to send signals accurately; thus, there is very little signal loss and the impedance matches perfectly. These connectors are great for testing boards and modules that need direct access to traces. They work well in tough lab or production settings.

Design Features of High-Performance End Launch Connector Models

Modern end launch connectors are small and strong, and they can handle high-frequency signals up to 65 GHz and higher. They usually have gold-plated contacts, precise alignment mechanisms, and strong housings to keep the connection stable. The 1.85 mm size is a good balance between being small and working well, which makes it good for complex test setups and applications with a lot of data.

 

Benefits of Using 1.85 End Launch Connector for High-Frequency Applications

A 1.85 end launch connector has a number of benefits, including

       Better signal integrity with little loss while inserting

       Stable performance over a wide range of frequencies

       Simple to connect to semi-rigid or flexible coax wires

       Very strong for repeated tests

Engineers that work on high-frequency circuits, RF devices, and microwave test systems will find that these benefits make the connector a great choice.

Installation and Alignment Tips for End Launch Connector Reliability

Installation should be performed properly to make the best. Ensure that the connector is properly positioned relative to the PCB traces, apply the same tension each time, and ensure that the signal is not lost when the connector is installed. The correct equipment and instructions provided by the manufacturer can aid in maintaining the high-frequency performance of the connector and in preventing the contacts' destruction.

Comparing 1.85 End Launch Connector with Other Connector Types

The 1.85 mm end launch connector can handle higher frequencies and has a more stable signal than SMA or 2.92 mm connectors. Its modest size makes it perfect for small circuit designs that don't need to give up accuracy or dependability.

 

Future Innovations in End Launch Connector Technology

The technology behind connectors keeps becoming better, with new materials, smaller sizes, and better frequency performance. Future end launch connectors should be able to handle even greater GHz ranges while also being easier to use and more stable mechanically.

Gwave Technology has a lot of 1.85 end launch connectors and other items that are made to meet strict testing and operational standards for high-performance RF solutions. Check out their catalog today to see precision engineering and better signal integrity.

Tuesday, September 2, 2025

Discovering High-Frequency Solutions: Vertical Launch PCB Connectors for Exact Performance

 

In microwave and high-frequency systems, PCB connector selection plays a vital role in ensuring signal integrity and system performance. RF and microwave system design engineers usually rely on vertical launch PCB connectors because they are miniature in size, have excellent electrical properties, and provide a snug fit for advanced test and measurement systems. Among the commonly used types, the 2.92 vertical launch PCB connector and 1.85 vertical launch PCB connector are the most critical in high-speed designs.

Why Vertical Launch PCB Connectors Are Important

Vertical launch connectors are optimized to reduce signal reflection and loss, providing precise transmission over high-frequency ranges. Contrary to edge-mount connectors, vertical launch versions facilitate straight perpendicular transitions between PCB traces and coaxial, with the advantage of retaining performance. Their space-saving design also positions them as the go-to choice in densely populated designs.


The 2.92 Vertical Launch PCB Connector

The 2.92 mm connector, or K connector, is a widely popular solution that finds application in microwave and millimeter-wave products. It can support frequencies of up to 40 GHz and hence is ideal for advanced test equipment, radar systems, 5G components, and satellite communications.

Primary advantages are:

1.    Low VSWR for superior signal integrity.

2.    Interoperability with SMA and 3.5 mm connectors, providing versatility in design.

3.    Reliability through precision machining provides reliability over the long term.

The 1.85 Vertical Launch PCB Connector

When applications demand more than 40 GHz, the 1.85 mm connector takes over as an even better option. Alternatively referred to as the V connector, it accommodates frequencies of up to 67 GHz, making it the leading solution for next-generation comms systems, high-resolution radar, and aerospace testing.

Key advantages are:

     Increased frequency range for advanced RF applications.

     Durable mechanical design for repeated insertions.

     Accurate alignment that minimizes measurement uncertainty. 

With the addition of the 1.85 vertical launch PCB connector, engineers can have confidence in supporting ultra-high-frequency applications with less signal degradation.

Vertical Launch PCB Connector Applications

The 2.92 mm and 1.85 mm connectors are applied in various industries:

1.    Telecommunications – enabling lossless 5G and beyond connectivity.

2.    Aerospace and Defense – enabling advanced radar and satellite systems.

3.    Test & Measurement – supporting high-frequency probes and laboratory instruments.

Locating the Ideal Solution

The choice between a 2.92 vertical launch PCB connector and a 1.85 vertical launch PCB connector is based on the particular frequency demands and mechanical strength requirements of the project. Though the 2.92 mm solution encompasses the majority of high-frequency applications, the 1.85 mm solution guarantees operation on the leading edge of technology.

High-Frequency Precision with 1.85 End Launch Connector Solutions

  Understanding the Role of a 1.85 End Launch Connector in RF Systems In high-frequency RF and microwave systems, a 1.85 end launch conne...