| No. | Partie # | Fabricant | Description | Fiche Technique |
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Teledyne |
DPDT Non-Latching Electromechanical Relay • High repeatability • Broader bandwidth • Metal enclosure for EMI shielding • High isolation between control and signal paths • High resistance to ESD The following unique construction features and manufacturing techniques provide excellent robust |
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Teledyne |
Surface-Mount RF relay The following unique construction features and manufacturing techniques provide excellent resistance to environmental extremes and overall high reliability. • Uni-frame motor design provides high magnetic efficiency and mechanical rigidity. • Minimum |
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Teledyne |
DPDT Non-Latching Electromechanical Relay • High repeatability • Broader bandwidth • Metal enclosure for EMI shielding • High isolation between control and signal paths • High resistance to ESD The following unique construction features and manufacturing techniques provide excellent robust |
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Teledyne |
DPDT Non-Latching Electromechanical Relay • High repeatability • Broader bandwidth • Metal enclosure for EMI shielding • High isolation between control and signal paths • High resistance to ESD The following unique construction features and manufacturing techniques provide excellent robust |
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Teledyne Technologies Incorporated |
(RF310 / RF313) HIGH REPEATABILITY ULTRAMINIATURE T0-5 RF BYPASS RELAY The ultraminiature RF310 and RF313 relays are designed with an internal bypass (through path), when the coil is de-energized, to provide low insertion loss and VSWR through the bypass and simplicity of design for the user. Relays have improved RF ins |
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Teledyne |
Non-Latching RF Relay The ultra miniature SGRF312 is designed to improve upon the SGRF300 relay’s high frequency performance. The SGRF312 offers monotonic insertion loss to 8 GHz. This improvement in RF insertion loss over the frequency range, makes these relays highly s |
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Teledyne |
Surface-Mount RF relay The following unique construction features and manufacturing techniques provide excellent resistance to environmental extremes and overall high reliability. • Uni-frame motor design provides high magnetic efficiency and mechanical rigidity. • Minimum |
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Teledyne |
DPDT Non-Latching Electromechanical Relay • High repeatability • Broader bandwidth • Metal enclosure for EMI shielding • High isolation between control and signal paths • High resistance to ESD The following unique construction features and manufacturing techniques provide excellent robust |
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Teledyne |
Non-Latching RF Relay The ultraminiature SGRF300 and SGRF303 relays are designed to provide a practical surface-mount solution with improved RF signal repeatability over the frequency range. SGRF300 and SGRF303 relays feature a unique ground shield that isolates and shi |
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Teledyne |
Non-Latching RF Relay The ultraminiature SGRF300 and SGRF303 relays are designed to provide a practical surface-mount solution with improved RF signal repeatability over the frequency range. SGRF300 and SGRF303 relays feature a unique ground shield that isolates and shi |
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Teledyne |
Non-Latching RF Relay The ultraminiature SRF300 and SRF303 relays are designed to provide a practical surface-mount solution with improved RF signal repeatability over the frequency range. These relays are engineered for use in RF attenuator, RF switch matrices, ATE and |
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Teledyne Technologies Incorporated |
(RF310 / RF313) HIGH REPEATABILITY ULTRAMINIATURE T0-5 RF BYPASS RELAY The ultraminiature RF310 and RF313 relays are designed with an internal bypass (through path), when the coil is de-energized, to provide low insertion loss and VSWR through the bypass and simplicity of design for the user. Relays have improved RF ins |
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Teledyne |
DPDT Non-Latching Electromechanical Relay • High repeatability. • Broader bandwidth. • Metal enclosure for EMI shielding. • Ground pin option to improve case grounding. • High isolation between control and signal paths. • Highly resistant to ESD. CONSTRUCTION FEATURES The following unique |
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Teledyne |
DPDT Non-Latching Electromechanical Relay and manufacturing techniques provide excellent robustness to environmental extremes and overall high reliability: • Uniframe motor design provides high magnetic efficiency and mechanical rigidity • Minimum mass components and welded construction prov |
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Teledyne |
DPDT Non-Latching Electromechanical Relay and manufacturing techniques provide excellent robustness to environmental extremes and overall high reliability: • Uniframe motor design provides high magnetic efficiency and mechanical rigidity • Minimum mass components and welded construction prov |
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Teledyne |
DPDT Non-Latching Electromechanical Relay and manufacturing techniques provide excellent robustness to environmental extremes and overall high reliability: • Uniframe motor design provides high magnetic efficiency and mechanical rigidity • Minimum mass components and welded construction prov |
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Teledyne |
DPDT Non-Latching Electromechanical Relay • High repeatability • Broader bandwidth • Metal enclosure for EMI shielding • High isolation between control and signal paths • High resistance to ESD The following unique construction features and manufacturing techniques provide excellent robust |
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Teledyne |
DPDT Non-Latching Electromechanical Relay • High repeatability • Broader bandwidth • Metal enclosure for EMI shielding • High isolation between control and signal paths • High resistance to ESD The following unique construction features and manufacturing techniques provide excellent robust |
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Teledyne |
Non-Latching RF Relay The ultraminiature SRF300 and SRF303 relays are designed to provide a practical surface-mount solution with improved RF signal repeatability over the frequency range. These relays are engineered for use in RF attenuator, RF switch matrices, ATE and |
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