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 configuration of this clock is intended to provide a pure signal for optical t.
tic Absolute Frequency Tune Range Tune Voltage Tuning Linearity Tuning Sensitivity Modulation Bandwidth Voltage into 50 Ω (VSWR≤1.2) Sym fO Notes 1, 9 2 1 1, 8 2, 10 1,3 1,3 3, 4, 5 3, 4, 6 3, 4, 6, 7 Minimum ±25 0 ±3% 140 125 0.60 49 300 265 1.1 2:1 51 -30 -60 -70 -100 -120 -150 .20 10 12 1 50 3.13 ppm/V kHz VP-P % dBc dBc dBc/Hz dBc/Hz Typical 780.881 +3 Maximum Units MHz ppm VDC df/dv VO Q and Q Output Operating Load VSWR Symmetry Harmonic Spurious Nonharmonic Spurious Phase Noise dBc/Hz@100Hz offset 1kHz offset 10k offset Noise Floor Q and Q Jitter RMS Jitter (12 kHz to 80 MHz) No Noise.
No. | Partie # | Fabricant | Description | Fiche Technique |
---|---|---|---|---|
1 | OP4010B |
RF Monolithics |
Optical Timing Clock | |
2 | OP4010B |
muRata |
Optical Timing Clock | |
3 | OP4011B |
RF Monolithics |
Optical Timing Clock | |
4 | OP4012B |
RF Monolithics |
Optical Timing Clock | |
5 | OP4012B |
muRata |
Optical Timing Clock | |
6 | OP4013B |
RF Monolithics |
Optical Timing Clock | |
7 | OP4014B |
RF Monolithics |
Optical Timing Clock | |
8 | OP4017B |
RF Monolithics |
Optical Timing Clock | |
9 | OP4018B |
RF Monolithics |
Optical Timing Clock | |
10 | OP400 |
Analog Devices |
Quad Low-Offset / Low-Power Operational Amplifier | |
11 | OP400A |
Maxwell |
Low-Power Operational Amplifier | |
12 | OP41 |
Analog Devices |
LOW-BIAS-CURRENT / HIGH-STABILITY JFET OPERATIONAL AMPLIFIER |