LMK6C
- Differential and single-ended output, any frequency within the given range can be supported:
- LMK6P: LVPECL output, 1 – 400 MHz
- LMK6D: LVDS output, 1 – 400 MHz
- LMK6C: LVCMOS output, 1 – 200 MHz
- Ultra-low jitter:
- 100-fs RMS jitter, Fout ≥ 100 MHz, LMK6P/LMK6D
- 300-fs RMS jitter, Fout ≥ 25 MHz, LMK6C
- ±25-ppm total frequency stability inclusive of all factors and 10 year aging
- Smallest industry standard package: 2.50 mm × 2.00 mm (DLF)
- 3.20 mm × 2.50 mm (DLE) also available
- Support extended industrial temperature grade:
- LMK6P/LMK6D: –40°C to 85°C
- LMK6C: –40°C to 105°C
- Integrated LDO for robust supply noise immunity
- < 5-ms start-up time
- Supply voltage options of 1.8 V and 2.5 V – 3.3 V
- Fixed-frequency devices, programmed at the factory. Short leadtime on new frequencies for sampling. Contact TI representative.
Texas Instruments Bulk-Acoustic Wave (BAW) is a micro-resonator technology that enables the integration of high-precision and ultra-low jitter clocks directly into packages that contain other circuits. BAW is fully designed and manufactured at TI factories like other silicon-based fabrication processes.
The LMK6x device is a low jitter, fixed-frequency oscillator which incorporates the BAW as the resonator source. With a high-performance fractional frequency divider, the LMK6x is capable of producing any frequency within the specified range providing a single device family for all frequency needs. The device is factory-programmed per specific operation mode, including frequency, voltage, output type, and function pin. Contact a TI representative for additional frequencies or other options.
The high-performance clocking, mechanical stability, flexibility and small package options for this device are designed for reference and core clocks in high-speed SERDES used in Telecommunications, Data and Enterprise Network and Industrial applications.
技术文档
类型 | 项目标题 | 下载最新的英语版本 | 日期 | |
---|---|---|---|---|
* | 数据表 | LMK6x High-Performance BAW Oscillator 数据表 | 22 Apr 2022 | |
用户指南 | LMK6xxEVM Evaluation Instructions | 28 Apr 2022 | ||
技术文章 | How to select an optimal clocking solution for your FPGA-based design | 09 Dec 2015 |
设计和开发
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