No. | Partie # | Fabricant | Description | Fiche Technique |
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SIPAT |
SAW Filter perature drift and manufacturing tolerances 4. This is the optimum impedance in order to achieve the performance show Matching Configuration L1 L2 L1=27nH L2=33nH C1=C2=56pF C1 C2 Source/Load Impedance=50 ohm Notes - Component values may cha |
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SIPAT |
SAW Filter er to achieve the performance show Matching Configuration L1=27nH C1=82pF Source/Load Impedance=50 ohm Notes - Component values may change depending on board layout. SIPAT Co., Ltd. ( CETC No. 26 Research Institute ) Nanping Huayuan Road No. 14 |
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SIPAT |
SAW Filter manufacturing tolerances 4. This is the optimum impedance in order to achieve the performance show Matching Configuration L1=22nH L2=15nH C1=33pF Source/Load Impedance=50 ohm Notes - Component values may change depending on board layout. SIPAT C |
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SIPAT |
SAW Filter e to temperature drift and manufacturing tolerances 4. This is the optimum impedance in order to achieve the performance show Matching Configuration INPUT 50Ω C1 L1 L2 L1=39nH OUTPUT 50Ω C2 L2=47nH C2=36pF C1=47pF Source/Load Impedance=50 ohm |
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SIPAT |
SAW Filter to achieve the performance shown Matching Configuration L1 L2 C1=82pF C1 C2 C2=82pF L2=12nH L1=15nH Source/Load Impedance=50 ohm Notes - Component values may change depending on board layout. SIPAT Co., Ltd. ( CETC No. 26 Research Institute ) |
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SIPAT |
SAW Filter nces 4. This is the optimum impedance in order to achieve the performance show Matching Configuration L1 L2 L1=L2=47nH C1=39pF C2=33pF Source/Load Impedance=50 ohm C1 C2 Notes - Component values may change depending on board layout. SIPAT Co. |
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SIPAT |
SAW Filter 84 E-mail: [email protected] |
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SIPAT |
SAW Filter e to temperature drift and manufacturing tolerances 4. This is the optimum impedance in order to achieve the performance show Matching Configuration INPUT 50Ω L1 L2 OUTPUT 50Ω L1=56nH L2=100nH Source/Load Impedance=50 ohm Notes - Component val |
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SIPAT |
SAW Filter For IF SAW filter High attenuation Single-ended operation Dual In-line Package www.DataSheet4U.com Specifications Parameter Center Frequency Insertion Loss 1.5 dB Bandwidth 3 dB Bandwidth 35 dB Bandwidth 40 dB Bandwidth 45 dB Bandwidth 50 d |
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SIPAT |
114MHz SAW Filter 4MHz Bandwidth For IF SAW filter Single-ended operation Ceramic Surface Mount Package Small size RoHS compliant (2002/95/EC), Pb-free Specifications Parameter Center Frequency www.DataSheet4U.com Insertion Loss 1 dB Bandwidth 3 dB Bandwidth 40 dB Bandwid |
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SIPAT |
100MHz SAW Filter 5MHz Bandwidth For IF SAW filter High attenuation Single-ended operation Dual In-line Package RoHS compliant (2002/95/EC), Pb-free Specifications Parameter Center Frequency Insertion Loss 1.5 dB Bandwidth 3 dB Bandwidth 35 dB Bandwidth 45 dB Bandwidth 50 |
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SIPAT |
SAW Filter perature drift and manufacturing tolerances 4. This is the optimum impedance in order to achieve the performance show Matching Configuration L1 L2 L1=18nH C1=51pF L2=56nH C2=33pF C1 C2 Source/Load Impedance=50 ohm Notes - Component values may |
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SIPAT |
SAW Filter timum impedance in order to achieve the performance show Matching Configuration L1 L2 L1=56nH L2=82nH C1=C2=18pF C1 Source/Load Impedance=50 ohm C2 Notes - Component values may change depending on board layout. SIPAT Co., Ltd. ( CETC No. 2 |
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SIPAT |
SAW Filter r to achieve the performance show Matching Configuration L1 L2 L1=47nH C1=47pF L2=33nH C2=36pF C1 C2 Source/Load Impedance=50 ohm Notes - Component values may change depending on board layout. SIPAT Co., Ltd. ( CETC No. 26 Research Institute |
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SIPAT |
SAW Filter t and manufacturing tolerances 4. This is the optimum impedance in order to achieve the performance show Matching Configuration L1 L1=L2=33nH L2 OUTPUT 50Ω C2 Notes - Component values may change depending on board layout. INPUT 50Ω C1 C1=C2=47pF |
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SIPAT |
SAW Filter Electrical margin has been built into the design to account for the variations due to temperature drift and manufacturing tolerances 4. This is the optimum impedance in order to achieve the performance show Matching Configuration L1=L2=22nH INPUT 50 |
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SIPAT |
SAW Filter timum impedance in order to achieve the performance show Matching Configuration L1 L2 L1=27nH L2=18nH C2=47pF C1=39pF C1 C2 Source/Load Impedance=50 ohm Notes - Component values may change depending on board layout. SIPAT Co., Ltd. ( CETC No. |
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SIPAT |
SAW Filter rature drift and manufacturing tolerances 4. This is the optimum impedance in order to achieve the performance show Matching Configuration L1 L2 L1=39nH C1=33pF C2 L2=33nH C2=39pF C1 Source/Load Impedance=50 ohm Notes - Component values may ch |
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SIPAT |
SAW Filter rmance shown Matching Configuration L1=22nH Source/Load Impedance=50 ohm Notes - Component values may change depending on board layout. SIPAT Co., Ltd. ( CETC No. 26 Research Institute ) Nanping Huayuan Road No. 14 Chongqing, China, 400060 Part |
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SIPAT |
SAW Filter nce in order to achieve the performance show Matching Configuration L1 L2 L1=18nH C1=56pF L2=33nH C2=56pF C1 C2 Source/Load Impedance=50 ohm Notes - Component values may change depending on board layout. SIPAT Co., Ltd. ( CETC No. 26 Researc |
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