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Preliminary OP4015B • • • Quartz SAW Stabilized and Filtered “Diff Sine” Technology Fundamental-Mode Oscillation at 780.881 MHz Voltage Tunable for Phase Lock Loop Operations The output of this device is generated and filtered by narrowband quartz SAW elements at 780.881 MHz. The configur
Preliminary OP4014B • • • • Quartz SAW Stabilized and Filtered “Diff Sine” Technology Fundamental-Mode Oscillation at 627.329 MHz Voltage Tunable for Phase Lock Loop Operations Optical Timing Reference for G.709 Timing Applications The output of this device is generated and filtered by
Preliminary ® OP4012B 644.53125 MHz • • • • Quartz SAW Stabilized Differential Output Technology Very Low Jitter Fundamental-Mode Operation at 644.53125 MHz Voltage Tunable for Phase Locked Loop Applications Timing Reference for 10G Optical Ethernet Communications Systems The OP4012B is
Preliminary OP4011B • • • • Quartz SAW Stabilized and Filtered “Diff Sine” Technology Fundamental-Mode Oscillation at 719.734 MHz Voltage Tunable for Phase Lock Loop Operations Optical Timing Reference for Forward Error Correction Applications The output of this device is generated and
Preliminary OP4010B • • • • Quartz SAW Stabilized and Filtered “Diff Sine” Technology Fundamental-Mode Oscillation at 663.552 MHz Voltage Tunable for Phase Lock Loop Operations Optical Timing Reference for Forward Error Correction Applications The output of this device is generated and
Data Sheet FEATURES Wide bandwidth: 15 MHz Low offset voltage: 325 µV max Low noise: 9.5 nV/√Hz @ 1 kHz Single-supply operation: 2.7 V to 12 V Rail-to-rail output swing Low TCVOS: 1 µV/°C typ High slew rate: 13 V/µs No phase inversion Unity-gain stable APPLICATIONS Portable instrumentation Sam
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