Seismic
Timing Solutions for Extreme Environments, Built for Every Engineering Challenge
Engineers in energy, exploration, and monitoring face the challenge of ensuring long-term, stable, low-power, and precise monitoring in remote or harsh environments. Deployments like Ocean Bottom Nodes demand ultra-low power to maximize battery life and reduce maintenance costs. Accurate timestamping is critical for synchronizing data across sites, forming the foundation for ground movement research, resource exploration, and environmental monitoring. When GPS signals are disrupted, devices need holdover capability to maintain precise timing. Taitien understands these needs and delivers reliable, precise, and energy-efficient timing solutions engineered for demanding applications—so you can focus on development, not system failures.
- Ultra-low power designs extend battery life for remote deployments.
- High precision oscillators ensure reliable event detection and analysis.
- Integrated GPS-synchronized timing simplifies system design.
- Robust holdover capability maintains accuracy during GPS outages.
- Compact form factors for space-constrained monitoring nodes.
- Wide temperature operation for harsh environments.
- Supports applications: oil & gas exploration, seismic monitoring & prediction, mining & resource extraction, environmental & geotechnical research.
Related Categories
NF-16M384-7000
20 x 14 mm
16.384 MHz
CMOS
-115 dBc/Hz @ 10Hz
±10 ppb @ 0°C to +50°C
Power Consumption 75 mW
DT-5151
50.8 x 50.8 mm Disciplined XO
5, 10 MHz
CMOS
< 10-12 in frquency
1PPS GPS Disciplined < 30 ns
24 Hours Holdover < 1.5 uS
OB-U Differential
2.5 x 2 mm XO
100 to 220 MHz
LVPECL/LVDS/HCSL
Phase Jitter : 0.05 ps (typ.)
±20 ppm @ -40°C to +85°C
±50 ppm @ -40°C to +125°C
TP
3.2 x 2.5 mm VCTCXO
10 to 52 MHz
CMOS/Clipped Sine Wave
-145 dBc/Hz @ 1kHz
±0.05 ppm @ -20°C to +70°C
0.3 ppb/g
DTA-450
41.0 x 35.0 mm Atomic Oscillator
10 MHz
CMOS
< 10-12 in frquency
1PPS GPS Disciplined < 50 ns
Power Consumption 130 mW
