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| Vector Telecom is pleased to announce the upgrade line of MMW WR12/WR10 Waveguide to Coaxial Adapter. It features wide frequency bandwidth, low VSWR, low Insertion Loss and high stability. |
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The parts are available in stock for quick delivery time.
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Right Angle Type
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Specifications
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| Part No |
VT740WCA1.0KPC
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VT900WCA1.0KPC
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| Electrical Specifications |
| Frequency Range |
60-90 GHz |
75-110 GHz |
| VSWR (Max) |
1.55 |
1.55 |
| Insertion Loss (Max) |
1.0 dB |
1.0 dB |
| Mechanical Specifications |
| Waveguide Type |
WR12 |
WR10 |
| Flange Type |
FUGP740 |
FUGP900 |
| Material |
Brass |
Brass |
| Finish |
Gold plating |
Gold plating |
| Dimensions (L*W*H) |
27¡Á19.1¡Á21.25 mm |
27¡Á19.1¡Á21.25 mm |
| Weight |
0.015 kg |
0.015 kg |
| Environment Specifications |
| Working Temperature |
-40℃-+70℃ |
-40℃-+70℃ |
| Storage Temperature |
-40℃-+85℃ |
-40℃-+85℃ |
| Relative Humidity |
≤80% |
≤80% |
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Outline Drawings
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| Test Data (VSWR and IL Curves) |
| VT740WCA1.0KPC |
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| VT900WCA1.0KPC |
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| Note: In Insertion Loss (IL) test setup, two Waveguide to Coaxial Adapters are connected together. The test value is the total IL of the two parts. Actually the IL of single Waveguide to Coaxial Adapter is the total value divided by two. |
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End-Launch Type
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Specifications
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| Part No |
VT740WECA1.0KPC
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VT900WECA1.0KPC
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| Electrical Specifications |
| Frequency Range |
60-90 GHz |
75-110 GHz |
| VSWR (Max) |
1.6 |
1.6 |
| Insertion Loss (Max) |
0.9 dB |
1.2 dB |
| Mechanical Specifications |
| Waveguide Type |
WR12 |
WR10 |
| Flange Type |
FUGP740 |
FUGP900 |
| Material |
Brass |
Brass |
| Finish |
Gold plating |
Gold plating |
| Dimensions (L*W*H) |
14.6¡Á¦Õ19.1 mm |
14.6¡Á¦Õ19.1 mm |
| Weight |
0.01 kg |
0.01 kg |
| Environment Specifications |
| Working Temperature |
-40℃-+70℃ |
-40℃-+70℃ |
| Storage Temperature |
-40℃-+85℃ |
-40℃-+85℃ |
| Relative Humidity |
≤80% |
≤80% |
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Outline Drawings
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| Test Data (VSWR and IL Curves) |
| VT740WECA1.0KPC |
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| VT900WECA1.0KPC |
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| Note: In Insertion Loss (IL) test setup, two Waveguide to Coaxial Adapters are connected together. The test value is the total IL of the two parts. Actually the IL of single Waveguide to Coaxial Adapter is the total value divided by two. |
| For more information contact: |
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