Marki Microwave LLC Datasheets for Bias Tees
Bias tees allow the insertion of DC voltages into a signal path without disrupting the existing signal in that path.
Bias Tees: Learn more
| Product Name | Notes |
|---|---|
| The BT-0010SMG is a packaged bias tee featuring excellent insertion loss and superior isolations over a broad 20 MHz to 10 GHz bandwidth. Tight fabrication tolerances allow for low unit... | |
| The BT-0018 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BT-0018 is a... | |
| The BT-0025 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BT-0025 is a... | |
| The BT-0026 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BT-0026 is a... | |
| The BT-0026SMG is a packaged bias tee featuring excellent insertion loss and superior isolations over a broad 20 MHz to 26 GHz bandwidth. Tight fabrication tolerances allow for low unit... | |
| The BT-0035SMG is a packaged bias tee featuring excellent insertion loss and superior isolations over a broad 20 MHz to 35 GHz bandwidth. Tight fabrication tolerances allow for low unit... | |
| The BT-0040 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BT-0040 is a... | |
| The BT-0050 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BT-0050 is a... | |
| The BT-0065 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BT-0065 is a... | |
| The BT1-0026 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BT1-0026 is a... | |
| The BT1-0040 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BT1-0040 is a... | |
| The BT1-0050 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BT1-0050 is a... | |
| The BT2-0026 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BT2-0026 is a... | |
| The BT2-0040 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BT2-0040 is a... | |
| The BT2-0050 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BT2-0050 is a... | |
| The BTL-0012SMG is a packaged bias tee featuring excellent insertion loss and superior isolations over a broad 500 kHz to 12 GHz bandwidth. Tight fabrication tolerances allow for low unit... | |
| The BTL-0026SMG is a packaged bias tee featuring excellent insertion loss and superior isolations over a broad 500 kHz to 26 GHz bandwidth. Tight fabrication tolerances allow for low unit... | |
| The BTL-0035SMG is a packaged bias tee featuring excellent insertion loss and superior isolations over a broad 500 kHz to 35 GHz bandwidth. Tight fabrication tolerances allow for low unit... | |
| The BTM-0026PSM-1 is a packaged miniature bias tee featuring excellent 0.4 dB insertion loss and superior 25 dB isolations over a broad 10 MHz to 26 GHz bandwidth. The BTM-0026PSM-1... | |
| The BTM-0026PSM-2 is a packaged miniature bias tee featuring excellent insertion loss and superior isolations over a broad 10MHz to 26GHz bandwidth. The BTM-0026PSM-2 works well for K-Band applications. The... | |
| The BTN-0040 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BTN-0040 is a... | |
| The BTN-0050 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BTN-0050 is a... | |
| The BTN-0065 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BTN-0065 is a... | |
| The BTN1-0018 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BTN1-0018 is a... | |
| The BTN1-0026 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BTN1-0026 is a... | |
| The BTN1-0040 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BTN1-0040 is a... | |
| The BTN1-0050 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BTN1-0050 is a... | |
| The BTN2-0018 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BTN2-0018 is a... | |
| The BTN2-0026 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BTN2-0026 is a... | |
| The BTN2-0040 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BTN2-0040 is a... | |
| The BTN2-0050 is constructed using a custom-made, resonance-free conical inductor to achieve extremely broadband performance. By minimizing the overall inductor size and using proprietary packaging techniques, the BTN2-0050 is a... |