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射頻 (RF) 與微波
RF PLL 與合成器

LMX1205

現行

具有 JESD204 支援和可編程時脈延遲的低雜訊、高頻緩衝器/倍頻器/分頻器

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產品規格表

LMX1205

現行
產品規格表 立即訂購

產品詳細資料

Frequency (max) (MHz) 12800 Frequency (min) (MHz) 300 Features 1:4 fanout, Integrated multiplier and divider modes, JESD204B/C SYSREF support, Phase synchronization, Programmable Delay, Programmable phase offset, RF clock distribution, Ultra-low additive jitter Current consumption (mA) 405 Integrated VCO No Operating temperature range (°C) -40 to 85 Rating Catalog Lock time (µs) (typ) (s) Loop BW dependent
Frequency (max) (MHz) 12800 Frequency (min) (MHz) 300 Features 1:4 fanout, Integrated multiplier and divider modes, JESD204B/C SYSREF support, Phase synchronization, Programmable Delay, Programmable phase offset, RF clock distribution, Ultra-low additive jitter Current consumption (mA) 405 Integrated VCO No Operating temperature range (°C) -40 to 85 Rating Catalog Lock time (µs) (typ) (s) Loop BW dependent
VQFN (RHA) 40 36 mm² 6 x 6
  • Output frequency: 300MHz to 12.8GHz
  • Noiseless adjustable input delay up to 60ps with 1.1ps resolution
  • Individual adjustable output delays up to 55ps with 0.9ps resolution
  • Ultra-low noise
    • Noise floor: –159dBc/Hz at 6GHz output
    • Additive jitter (DC to fCLK): 36fs
    • Additive jitter (100Hz to 100MHz): 10fs
  • Four high-frequency clocks with corresponding SYSREF outputs
    • Shared divide by 1 (Bypass), 2, 3, 4, 5, 6, 7, and 8
    • Shared programmable multiplier x2, x3, x4, x5, x6, x7 and x8
  • LOGICLK output with corresponding SYSREF output
    • On separate divide bank
    • 1, 2, 4 pre-divider
    • 1 (bypass), 2, …, 1023 post divider
    • Second logic clock option with additional divider 1, 2, 4 & 8
  • Six programmable output power levels
  • Synchronized SYSREF clock outputs
    • 508 delay step adjustments of less than 2.5ps at 12.8GHz
    • Generator, repeater and repeater retime modes
    • Windowing feature for SYSREFREQ pins to optimize timing
  • SYNC feature to all divides and multiple devices
  • Operating voltage: 2.5V
  • Operating temperature: –40ºC to +85ºC
  • Output frequency: 300MHz to 12.8GHz
  • Noiseless adjustable input delay up to 60ps with 1.1ps resolution
  • Individual adjustable output delays up to 55ps with 0.9ps resolution
  • Ultra-low noise
    • Noise floor: –159dBc/Hz at 6GHz output
    • Additive jitter (DC to fCLK): 36fs
    • Additive jitter (100Hz to 100MHz): 10fs
  • Four high-frequency clocks with corresponding SYSREF outputs
    • Shared divide by 1 (Bypass), 2, 3, 4, 5, 6, 7, and 8
    • Shared programmable multiplier x2, x3, x4, x5, x6, x7 and x8
  • LOGICLK output with corresponding SYSREF output
    • On separate divide bank
    • 1, 2, 4 pre-divider
    • 1 (bypass), 2, …, 1023 post divider
    • Second logic clock option with additional divider 1, 2, 4 & 8
  • Six programmable output power levels
  • Synchronized SYSREF clock outputs
    • 508 delay step adjustments of less than 2.5ps at 12.8GHz
    • Generator, repeater and repeater retime modes
    • Windowing feature for SYSREFREQ pins to optimize timing
  • SYNC feature to all divides and multiple devices
  • Operating voltage: 2.5V
  • Operating temperature: –40ºC to +85ºC

The high frequency capability, extremely low jitter and programmable clock input and output delay of this device, makes a great approach to clock high precision, high-frequency data converters without degradation of signal-to-noise ratio. Each of the four high frequency clock outputs and additional LOGICLK outputs with larger divider range, is paired with a SYSREF output clock signal. The SYSREF signal for JESD204B/C interfaces can either be internally generated or passed in as an input and re-clocked to the device clocks. The noiseless delay adjustment at input path of the high frequency clock input and individual clock output paths insures low skew clocks in multi-channel system. For data converter clocking application, having the jitter of the clock less than the aperture jitter of the data converter is important. In applications where more than four data converters need to be clocked, a variety of cascading architectures can be developed using multiple devices to distribute all the high frequency clocks and SYSREF signals required. This device, combined with an ultra-low noise reference clock source, is an exemplary choice for clocking data converters, especially when sampling above 3GHz.

The high frequency capability, extremely low jitter and programmable clock input and output delay of this device, makes a great approach to clock high precision, high-frequency data converters without degradation of signal-to-noise ratio. Each of the four high frequency clock outputs and additional LOGICLK outputs with larger divider range, is paired with a SYSREF output clock signal. The SYSREF signal for JESD204B/C interfaces can either be internally generated or passed in as an input and re-clocked to the device clocks. The noiseless delay adjustment at input path of the high frequency clock input and individual clock output paths insures low skew clocks in multi-channel system. For data converter clocking application, having the jitter of the clock less than the aperture jitter of the data converter is important. In applications where more than four data converters need to be clocked, a variety of cascading architectures can be developed using multiple devices to distribute all the high frequency clocks and SYSREF signals required. This device, combined with an ultra-low noise reference clock source, is an exemplary choice for clocking data converters, especially when sampling above 3GHz.
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重要文件 類型 標題 格式選項 日期
* Data sheet LMX1205 Low-Noise, High-Frequency JESD Buffer/Multiplier/Divider datasheet PDF | HTML 2024年 12月 13日
Application note Practical Clocking Considerations That Give Your Next High-Speed Converter Design an Edge (Rev. A) PDF | HTML 2025年 4月 11日
Application note Impact of Slew Rate on Noise PDF | HTML 2025年 2月 6日
Application note Windowing, Sync, Sysref in LMX1205 PDF | HTML 2025年 1月 28日

設計與開發

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開發板

LMX1205EVM — LMX1205 評估模組

LMX1205 評估模組 (EVM) 設計旨在評估 LMX1205 的性能,其為四路輸出、超低附加抖動無線電頻率 (RF) 緩衝器、分頻器和倍頻器。此 EVM 可緩衝最多 12.8GHz 的射頻時鐘輸入,在 6.4GHz 至 12.8GHz 的輸出範圍內最多乘以八倍,並將輸入最多除以八倍。可程式設計邏輯閘陣列 (FPGA) 和邏輯時鐘中隨附獨立的輔助時鐘分頻器,而每個輸出均包含具皮秒精度及延遲微調功能的系統參考 (SYSREF) 補數。多個裝置可針對廣泛的時鐘分配樹狀結構進行同步化。
使用指南: PDF | HTML
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LMX1205_CASCADED_REF_BOARD — 適用於串連時脈樹評估的 LMX1205 參考電路板

LMX1205 多步評估模組 (EVM) 設計旨在評估 LMX1205 的串連時脈樹性能,其為四路輸出、超低附加抖動無線電頻率 (RF) 緩衝器、分頻器和倍頻器。此 EVM 的每個 IC 可緩衝最多 12.8GHz 的射頻時鐘輸入,在 6.4GHz 至 12.8GHz 的輸出範圍內最多乘以八倍,並將輸入最多除以八倍。每個時脈路徑都具有可編程輸入與輸出延遲選項,解析度為 ~1ps,且總範圍超過 50ps。這允許使用者將時脈調整為時鐘偏斜、電纜和走線長度不匹配,並糾正任何設定缺陷
可程式設計邏輯閘陣列 (FPGA) (...)

使用指南: PDF | HTML
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應用軟體及架構

PLLATINUMSIM-SW — 德州儀器 (TI) PLLatinum Simulator Tool

PLLATINUMSIM-SW 為一模擬工具,可讓使用者建立 PLLatinum™ 積體電路的詳細設計和模擬,包括 LMX 系列的相位鎖定迴路 (PLL) 及合成器。
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支援軟體

TICSPRO-SW TICS Pro GUI and Live Programming Tool for Clocking Devices

Texas Instruments clocks and synthesizers (TICS) pro software is used to program the evaluation modules (EVMs) for product numbers with these prefixes: CDC, LMK and LMX. These products include phase-locked loops and voltage-controlled oscillators (PLL+VCO), synthesizers and clocking devices.

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LMX1205 IBIS Model

SNAM299.ZIP (52 KB) - IBIS Model
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CLOCK-TREE-ARCHITECT — 時鐘樹架構程式設計軟體

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