2.92mm メスコネクタ、2 穴フランジ付き、穴間隔 12.2mm、メタルスループレート、DC-40GHz
Gwave は、最大 40 GHz の周波数を使用する2.92 mm メス型フランジ マウントおよび金属スループレート コネクタのグループを提供します。このシリーズのコネクタは 2 穴フランジを備えており、フランジ サイズは 15.8mmX 5.7mm、フランジ穴のスペースは 12.2mm です。スループレートのマテリアルの直径と長さ、テールピンの直径と長さが異なります。写真、図面、対応するサイズを参照して、必要な製品を選択してください。
部品番号リスト:
| 2.92-KFD0401 | Φ1=0.3mm、Φ2=4mm、L1=1.5mm、L2=1.4mm |
| 2.92-KFD0402 | Φ1=0.3mm、 Φ2=4mm、L1=1.5mm、L2=3mm |
| 2.92-KFD0403 | Φ1=0.6mm、 Φ2=4mm、L1=1.27mm、L2=10.1mm |
仕様:
| 頻度 | DC-40GHz |
| 挿入損失 | ≤ 0.05 xSqt.(f_GHz) dB |
| VSWR | 1.15 |
| 本体材質 | ステンレス鋼 |
| 取付方法 | 2穴フランジ |
| サイズ | 15.8mm×5.7mm |
| 動作温度 | -55~+165度 |
オススメ商品
FAQs
Where can I buy 2-hole flange connectors?
This connector is also available online at a variety of other online electronics retailers. Specialized online electronics retailers include GWAVE Tech. Quality connectors are produced by these companies and are compatible with a wide number of RF applications, from military to commercial users.
What is a 2 Hole Flange Connector?
It is a 2 2-hole flange Connector, an RF connector that has two mounting holes. This type of connector is ideal for a requirement when a compact stable connection is required for dependable signal transmission at high frequencies.
What materials used in the 2 Hole Flange Connector?
2 Hole Flange Connectors are made typically of brass, stainless steel, and copper. The material chosen provides excellent conductivity, corrosion resistance, and mechanical strength, making these types suitable for most RF and high-frequency applications.
How do I properly secure a 2 Hole Flange Connector?
Mount two 2 Hole Flange Connector to the mounting holes on your device or panel. Then tighten up the screws for a firm grasp, avoiding movement and loose contacts that would cause signal degradation or interference.
How To Install a 2 Hole Flange Connector?
For a 2 Hole Flange Connector, you should first align the connector with the mounting holes. You fasten it in place by the usage of screws or bolts, making sure that you get a tight and stable connection. Proper installation is the way to go by keeping signal integrity at its best for high-frequency systems.