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Rakon推出了首款集成电路OCXO产品ROM1490X

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扫一扫!Rakon推出了首款集成电路OCXO产品ROM1490X扫一扫!
浏览:- 发布日期:2024-03-06 15:43:27【
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Rakon推出了首款集成电路OCXO产品ROM1490X

Rakon推出适用于云数据中心和下一代电信网络的8小时缓发小型IC-OCXO

Rakon推出了首款集成电路OCXO产品,结合了其内部设计的Mercury半导体芯片和XMEMS®MercuryX品牌的谐振器。MercuryX OCXO晶振提供了超高的稳定性和8小时的延长保持时间。在现实条件下,所有产品均采用小尺寸封装。新型OCXOs非常适合人工智能计算/数据中心、5G、5G Advanced和6G电信网络以及卫星终端和仪器仪表的计时和同步。
Rakon产品管理主管Reza Sedehi表示:“MercuryX产品展示了下一代石英技术(如XMEMS)可能带来的性能提升。首批1000多个MercuryX样品引起了一级客户的高度兴趣和积极反馈。新产品建立在十多年来持续大批量提供高质量基于ASIC的ocxo(IC-ocxo)的成功记录基础上。”
MercuryX之前推出了Niku,这是Rakon晶振公司最新的内部设计的用于超稳定TCXOs的ASIC半导体芯片,是该公司人工智能计算产品组合的下一款产品。
新的MercuryX OCXOs在稳定性(1.5 ppb)、频率斜率(0.05 ppb/°C)和老化(0.2 ppb/天)方面比当前的IC-OCXO系列性能提高了三倍。更重要的是,MercuryX满足了数据中心和先进电信网络备受追捧的延期要求(8小时)。

ROM1490X

开发自己的内部谐振器和芯片技术使Rakon能够控制其产品路线图,创造出像MercuryX这样的市场领先产品,这些产品在其新西兰和印度的工厂中独立生产,为客户提供了高度的供应保障。

该系列的首款产品是采用14x9mm封装的ROM1490X,随后将于2024年年中推出7x5mm贴片晶振产品。Rakon已经在研究Mercury芯片的下一代产品,新的ASIC将于2025年发布,以进一步提高性能。

ROM1490X进口有源晶振是一款符合Stratum 3E标准的OCXO,在-40至95°C的扩展工作温度范围内提供±3 ppb的稳定性。它专为数据中心同步、5G基站和小蜂窝、5G高级和6G无线电接入网络(RAN)设计,是Rakon的第一款OCXO,它结合了其专有的Mercury™ASIC和XMEMS®谐振器技术,提供了更高的稳定性和保持性能。

ROM1490X建立在Rakon在基于微型ASIC的OCXO、XMEMS®晶体谐振器、电路设计、热封装、高质量制造工艺和高分辨率测试方法方面的专业知识之上。占地面积尺寸为14x9mm的小型OCXO石英晶体振荡器实现了8小时的相位保持(1.5µs)。它提供0.05ppb/°C的低频斜率,并保证20年内±2.5ppm的长期稳定性。

ROM1490X配备了热保护封装,可以承受越来越高的低温和强劲的气流,同时保持可靠的频率信号和定时同步。ROM1490X超过了Stratum 3E±5ppb的要求,并提供≤±3ppb的高级稳定性,在性能和可靠性方面成为要求苛刻的电信应用的最佳选择。

ROM1490X恒温晶振的主要性能参数:
封装:14.2x9.2x6.5毫米,6焊盘贴片
频率:10至50MHz
工作温度:- 40至95℃
频率稳定性(FvT):1.5ppb
延期:8小时
频率斜率(δF/δT):0.05ppb/℃
老化:0.2ppb/天
重力敏感度:0.9ppb/g

定制的MercuryX产品通过先进的I C总线数字控制、GNSS 1PPS输入和/或机器学习进一步优化了长期稳定性。

ROM1490X

Rakon推出了首款集成电路OCXO产品ROM1490X
Rakon launches Small Form Factor IC-OCXO with 8hr holdover for cloud data centres and next-generation telecom networks
Rakon has launched its first IC-OCXO products combining its in-house designed Mercury™ semiconductor chip and XMEMS® resonators under the brand MercuryX™. MercuryX OCXOs provide ultra-high stability and an extended holdover of 8 hours. in real-world conditions, all in a small form factor package size. The new OCXOs are an excellent fit for timing and synchronisation in AI computing / data centres and 5G, 5G Advanced and 6G telecommunications networks as well as satellite terminals and instrumentation.
Reza Sedehi, Head of Product Management at Rakon says: “The MercuryX products showcase the performance gains that are possible with next-generation quartz technology such as XMEMS. The initial 1000+ samples of MercuryX have generated high interest and positive feedback from tier-1 customers. The new products build on Rakon’s successful track record of consistently delivering high-quality ASIC based OCXOs (IC-OCXOs) in large volumes for over a decade.”
MercuryX follows the launch of Niku™, Rakon’s latest in-house designed ASIC semiconductor chip for Ultra Stable TCXOs, as the next entry in the company’s AI computing product portfolio.
The new MercuryX OCXOs offer a three-fold performance improvement on the current IC-OCXO range in terms of stability (±1.5 ppb), frequency slope (0.05 ppb/°C) and ageing (0.2 ppb/day). Even more importantly, MercuryX satisfies the much sought-after holdover requirements (8 hrs) for data centres and advanced telecom networks.
The development of its own in-house resonator and chip technology allows Rakon to control its product roadmap, creating market-leading products like MercuryX that are independently manufactured in its factories in New Zealand and India, providing customers with high security of supply.
The first product in the range is the ROM1490X in a 14 x 9 mm package, to be followed by a 7 x 5 mm product in mid 2024. Rakon is already working on the next iteration of the Mercury chip, with a new ASIC to be released in 2025 for further performance gains.
Key performance parameters of the ROM1490X:
Package: 14.2 x 9.2 x 6.5 mm, 6-pad, SMD
Frequency (Fn): 10 to 50 MHz
Operating temperature: - 40 to 95°C
Frequency stability (FvT): ±1.5 ppb
Holdover: 8 hrs
Frequency slope (ΔF/ΔT): 0.05 ppb/°C
Ageing: 0.2 ppb/day
G-sensitivity: 0.9 ppb/g
Custom MercuryX products with further optimised long-term stability through advanced I²C bus digital control, GNSS 1PPS input and/or machine learning are available on request.