No. | Partie # | Fabricant | Description | Fiche Technique |
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Mitel Networks |
5GHZ 2 Fixed Modulus Divider G Very High Operating Speed G Operation down to DC with Square Wave Input G Silicon Technology for Low Phase Noise Absolute Maximum Ratings Supply voltage, VCC 6 ·5V Storage temperature 265°C to 1150°C Maximum junction temperature 1150°C Prescaler in |
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Mitel Networks |
1100MHz Very Low Current Multi-Modulus Divider Odering Information G G G G G G G Operation to 1100MHz Very Low Power Single Supply Operation 2.7V to 5.25V Power Down Facility for Battery Economy Latched Modulus Control Input Push Pull Output Drive ESD Protection on All Pins† SP8715/IG/MPAS Indu |
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Mitel Networks |
27GHz Parallel Load Professional Synthesiser s 2 ·7 GHz Operating Frequency s Single 5V Supply s Low Power Consumption <1 ·3W s High Comparison Frequency : 20MHz s High Gain Phase Detector : 1mA/rad s Zero ‘Dead Band’ Phase Detector s Wide Range of RF and Reference Division Ratios s Programming b |
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Mitel Networks |
13GHz Low Power Single-Chip Frequency Synthesiser s Improved Digital Phase Detector Eliminates ‘Dead Band’ Effects s Low Operating Power, Typically 175mW s 1 ·3GHz Operating Frequency s Complete Phase Locked Loop s High Input Sensitivity s Programmed throughThree-Wire Bus s Wide Range of Reference Di |
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Mitel Networks |
5GHZ 16 Fixed Modulus Divider G Very High Operating Speed G Operation down to DC with Square Wave Input G Silicon Technology for Low Phase Noise Absolute Maximum Ratings Supply voltage, VCC 6 ·5V Storage temperature 265°C to 1150°C Maximum junction temperature 1150°C Prescaler in |
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Mitel Networks |
Very Low Phase Noise Divider by 2N s Very low Phase Noise (Typically -155 to 160dBc/Hz at 1kHz offset) s Supply Voltage 5V ABSOLUTE MAXIMUM RATINGS Supply Voltage Output Current Storage Temperature Range Maximum Clock Input Voltage 6.5V 20mA -55°C to +125°C 2.5V p-p MP28 Fig.1 Pin |
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Mitel Networks |
1.5GHz 10 Prescaler q q Ordering Information SP8830 A DG SP8830 B DG DES9157201/AC/DGAZ (SMD) High Speed Operation 1 ·5GHz Silicon Technology for Low Phase Noise (Typically Better Than 2140dBc / Hz at 10kHz) Very Low Power Dissipation: 150mW (Typ.) Single 5V Supply Ope |
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Mitel Networks |
5GHZ 4 Fixed Modulus Divider G Very High Operating Speed G Operation down to DC with Square Wave Input G Silicon Technology for Low Phase Noise Absolute Maximum Ratings Supply voltage, VCC 6 ·5V Storage temperature 265°C to 1150°C Maximum junction temperature 1150°C Prescaler in |
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Mitel Networks |
Very Low Phase Noise 300MHz 10/11 s Very low Phase Noise (Typically -160dBc/Hz at 1kHz offset) s Supply Voltage 5V ABSOLUTE MAXIMUM RATINGS Supply Voltage Output Current Storage Temperature Range Maximum Clock Input Voltage 6.5V 20mA -55°C to +125°C 2.5V p-p MP28 ORDERING INFORMAT |
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Mitel Networks |
2100MHz Very Low Current Multi-Modulus Divider a power down facility for battery economy. The RF inputs are internally biased and should be capacitively coupled to the signal source. The output is designed to interface with CMOS synthesisers. RF INPUT VCC RATIO SELECT OUTPUT 1 2 3 4 SP8714 8 7 |
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Mitel Networks |
1.5GHz 10 Prescaler q q Ordering Information SP8830 A DG SP8830 B DG DES9157201/AC/DGAZ (SMD) High Speed Operation 1 ·5GHz Silicon Technology for Low Phase Noise (Typically Better Than 2140dBc / Hz at 10kHz) Very Low Power Dissipation: 150mW (Typ.) Single 5V Supply Ope |
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Mitel Networks |
15GHz Professional Synthesiser s Low Residual Phase Noise (see Reference 1) s Operation to 1 ·5GHz over Full Temperature Range s High Input Sensitivity s Improved Linear Digital Phase Detector s Programmable Charge Pump Current: 10µA to 2 mA s On-chip 416/17 or 48/9 Dual Modulus Pr |
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Mitel Networks |
15GHz Professional Synthesiser s Low Residual Phase Noise (see Reference 1) s Operation to 1 ·5GHz over Full Temperature Range s High Input Sensitivity s Improved Linear Digital Phase Detector s Programmable Charge Pump Current: 10µA to 2 mA s On-chip 416/17 or 48/9 Dual Modulus Pr |
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Mitel Networks |
5GHZ 4 Fixed Modulus Divider G Very High Operating Speed G Operation down to DC with Square Wave Input G Silicon Technology for Low Phase Noise Absolute Maximum Ratings Supply voltage, VCC 6 ·5V Storage temperature 265°C to 1150°C Maximum junction temperature 1150°C Prescaler in |
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Mitel Networks |
Very Low Phase Noise Synthesiser Divider s Very low Phase Noise (Typically -156dBc/Hz at 1kHz offset) s Supply Voltage 5V ABSOLUTE MAXIMUM RATINGS Supply Voltage Output Current Storage Temperature Range Maximum Clock Input Voltage 6.5V 20mA -55°C to +125°C 2.5V p-p MP28 Fig.1 Pin connect |
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Mitel Networks |
Very Low Phase Noise Synthesiser Divider s Very low Phase Noise (Typically -156dBc/Hz at 1kHz offset) s Supply Voltage 5V ABSOLUTE MAXIMUM RATINGS Supply Voltage Output Current Storage Temperature Range Maximum Clock Input Voltage 6.5V 20mA -55°C to +125°C 2.5V p-p MP28 Fig.1 Pin connect |
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Mitel Networks |
Very Low Phase Noise 300MHz 10/11 s Very low Phase Noise (Typically -160dBc/Hz at 1kHz offset) s Supply Voltage 5V ABSOLUTE MAXIMUM RATINGS Supply Voltage Output Current Storage Temperature Range Maximum Clock Input Voltage 6.5V 20mA -55°C to +125°C 2.5V p-p MP28 ORDERING INFORMAT |
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Mitel Networks |
Very Low Phase Noise Divider by 2N s Very low Phase Noise (Typically -155 to 160dBc/Hz at 1kHz offset) s Supply Voltage 5V ABSOLUTE MAXIMUM RATINGS Supply Voltage Output Current Storage Temperature Range Maximum Clock Input Voltage 6.5V 20mA -55°C to +125°C 2.5V p-p MP28 Fig.1 Pin |
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Mitel Networks |
1100MHz Very Low Current Three Modulus Divider a power down facility for battery economy. The RF inputs are internally biased and should be capacitively coupled to the signal source. The output is designed to interface with CMOS synthesisers, such as the NJ88C50. RF INPUT VCC MODULUS CONTROL 1 O |
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Mitel Networks |
1100MHz Very Low Current Three Modulus Divider a power down facility for battery economy. The RF inputs are internally biased and should be capacitively coupled to the signal source. The output is designed to interface with CMOS synthesisers, such as the NJ88C50. RF INPUT VCC MODULUS CONTROL 1 O |
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