By Timebeat

OCP-TAP Timecard - (Production Ready Technology)

Oscillator: Rubidium 1U
Regular price £4,500.00
Regular price Sale price £4,500.00
Availability: Low stock: 7 left
SKU: TIM-RUB-S
Regular price £4,500.00
Regular price Sale price £4,500.00

Introducing the OCP-TAP TimeCard: Advancing Precision in Timekeeping

Discover the OCP-TAP TimeCard, a pioneering solution designed for precise time synchronisation. This innovative product offers multiple options, including Rubidium, Cesium, and Quartz OCXO, catering to various timekeeping requirements.

The Rubidium OCXO option delivers exceptional accuracy and stability. Powered by advanced Rubidium technology, it ensures synchronised operations across your network.

For low powered solutions, the Cesium oscillator option is an ideal choice. Leveraging Cesium miniaturised atomic clocks, it offers exceptional stability and accuracy for critical applications.

The Quartz OCXO option provides reliable performance at an affordable cost, making it suitable for budget-conscious projects whilst not sacrificing performance.

The OCP-TAP TimeCard seamlessly integrates into existing infrastructure with versatile connectivity options. Its user-friendly installation and intuitive management software simplify configuration and monitoring.

Experience precision synchronisation with the OCP-TAP TimeCard, whether you choose the Rubidium, Cesium, or Quartz OCXO option. Elevate your timekeeping capabilities and achieve a new level of precision in critical industries with this exceptional product.

Unit Model Frequency Range Stability Features

Cesium SA.45s 10 MHz 3.0x10^-10 - Power consumption <120 mW

  • Less than 17 cc volume
  • Radiation-tolerant: 20 krad, SEL, SEU tested to 64 MeV-cm2/mg
  • 10 MHz CMOS-compatible output
  • 1PPS output and 1PPS input for synchronisation
  • RS-232 interface for monitoring and control
  • Short-term stability (Allan Deviation) of 3.0 × 10–10 at TAU = 1 sec.

Rubidium Ultra E10-MRX 10 MHz 5.0x10^-11 - Accuracy: 5x10^-11

  • Temperature stability available to 0.5 ppb (-20°C to +60°C)
  • 2" inch square package
  • Sine wave or HCMOS output
  • Frequency 10 MHz
  • Low phase noise
  • Excellent short-term stability
  • Operating voltage: +5V, +12 to +18V.

Quartz ROD2522S2 10 MHz 0.5 ppb - Nominal frequency 10 - 20 MHz

  • Operating temperature range -40°C to +85°C
  • Frequency stability over temperature 0.5 ppb peak to peak
  • Free-run accuracy (20 years) ±1 ppm
  • 24-hour holdover performance ±1.5 µs
  • Long-term stability (Ageing) ±0.2 ppb/day
  • Compensated ageing ±0.02 ppb/day.

The OCP-TAP TimeCard offers precision in timekeeping, providing options to suit various needs. It seamlessly integrates into existing systems and simplifies configuration and monitoring, making it a valuable asset for critical applications.

Cesium SA.45s 10 MHz 3.0x10^-10 - Power consumption <120 mW

Less than 17 cc volume
Radiation-tolerant: 20 krad, SEL, SEU tested to 64 MeV-cm2/mg
10 MHz CMOS-compatible output
1PPS output and 1PPS input for synchronisation
RS-232 interface for monitoring and control
Short-term stability (Allan Deviation) of 3.0 × 10–10 at TAU = 1 sec.
Rubidium Ultra E10-MRX 10 MHz 5.0x10^-11 - Accuracy: 5x10^-11

Temperature stability available to 0.5 ppb (-20°C to +60°C)
2" inch square package
Sine wave or HCMOS output
Frequency 10 MHz
Low phase noise
Excellent short-term stability
Operating voltage: +5V, +12 to +18V.
Quartz ROD2522S2 10 MHz 0.5 ppb - Nominal frequency 10 - 20 MHz

Operating temperature range -40°C to +85°C
Frequency stability over temperature 0.5 ppb peak to peak
Free-run accuracy (20 years) ±1 ppm
24-hour holdover performance ±1.5 µs
Long-term stability (Ageing) ±0.2 ppb/day
Compensated ageing ±0.02 ppb/day.

Time honoured solutions

built around you

  • Tech to suit your project

  • Every unit tested

  • Top performance

  • Free software available