Produktdetails

Output frequency (MHz) 1.2, 12.288, 16, 20, 24.576, 25, 27, 30, 33.33, 33.333, 40, 48, 50, 74.25, 100, 108, 125, 156.25, 200 Output type LVCMOS Stability (ppm) +/-25 Supply voltage (V) 1.8, 2.5, 3.3 Jitter (ps) 0.2 Operating temperature range (°C) -40 to 105
Output frequency (MHz) 1.2, 12.288, 16, 20, 24.576, 25, 27, 30, 33.33, 33.333, 40, 48, 50, 74.25, 100, 108, 125, 156.25, 200 Output type LVCMOS Stability (ppm) +/-25 Supply voltage (V) 1.8, 2.5, 3.3 Jitter (ps) 0.2 Operating temperature range (°C) -40 to 105
VSON (DLE) 4 8 mm² 3.2 x 2.5 VSON (DLF) 4 5 mm² 2.5 x 2
  • High-performance differential and single-ended output Oscillator, supporting any fixed frequency within the below range:
    • LMK6D: 1MHz to 400MHz, LVDS output
    • LMK6H: 1MHz to 400MHz, HCSL output
    • LMK6P: 1MHz to 400MHz, LVPECL output
    • LMK6C: 1MHz to 200MHz, LVCMOS output
  • Ultra-low jitter:
    • LMK6D/LMK6H/LMK6P: 100fs typical / 125fs maximum RMS jitter at 156.25MHz (12kHz to 20MHz)
    • LMK6C: 350fs typical / 500fs maximum RMS jitter at 100MHz (12kHz to 20MHz)
    • LMK6H: PCIe Gen 1 to Gen 6 compliant
  • ±25ppm total frequency stability inclusive of 10 years aging and all other factors
  • Smallest industry standard DLE and DLF packages
  • Support extended industrial temperature grade:
    • LMK6P/LMK6D/LMK6H: –40°C to 85°C
    • LMK6C: –40°C to 105°C
  • Integrated LDO for robust supply noise immunity:
    • –72dBc PSRR at 500kHz ripple
  • Start-up time: < 5ms
  • Standard frequencies:
    • LVCMOS (MHz): 1, 2.04, 4, 8.192, 10, 12, 12.288, 16, 19.2, 20, 23.5, 24, 24.57, 25, 25.6, 26, 26.21, 27, 28.12, 32.768, 33.333, 40, 48, 49.15, 50, 54, 60, 65.53, 66, 74.25, 76.8, 80, 100, 108, 125, 133.330 and 156.25
    • Differential (MHz): 25, 26, 32.5, 50, 51.84, 54, 65, 76.8, 80, 100, 108, 122.88, 125, 133.330, 148.35, 148.5, 150, 155.52, 156.25, 161.1328125, 200, 312.5, and 400
  • Device can support any frequency between 1MHz to 400MHz. Contact TI representative for any frequency and samples needed
  • High-performance differential and single-ended output Oscillator, supporting any fixed frequency within the below range:
    • LMK6D: 1MHz to 400MHz, LVDS output
    • LMK6H: 1MHz to 400MHz, HCSL output
    • LMK6P: 1MHz to 400MHz, LVPECL output
    • LMK6C: 1MHz to 200MHz, LVCMOS output
  • Ultra-low jitter:
    • LMK6D/LMK6H/LMK6P: 100fs typical / 125fs maximum RMS jitter at 156.25MHz (12kHz to 20MHz)
    • LMK6C: 350fs typical / 500fs maximum RMS jitter at 100MHz (12kHz to 20MHz)
    • LMK6H: PCIe Gen 1 to Gen 6 compliant
  • ±25ppm total frequency stability inclusive of 10 years aging and all other factors
  • Smallest industry standard DLE and DLF packages
  • Support extended industrial temperature grade:
    • LMK6P/LMK6D/LMK6H: –40°C to 85°C
    • LMK6C: –40°C to 105°C
  • Integrated LDO for robust supply noise immunity:
    • –72dBc PSRR at 500kHz ripple
  • Start-up time: < 5ms
  • Standard frequencies:
    • LVCMOS (MHz): 1, 2.04, 4, 8.192, 10, 12, 12.288, 16, 19.2, 20, 23.5, 24, 24.57, 25, 25.6, 26, 26.21, 27, 28.12, 32.768, 33.333, 40, 48, 49.15, 50, 54, 60, 65.53, 66, 74.25, 76.8, 80, 100, 108, 125, 133.330 and 156.25
    • Differential (MHz): 25, 26, 32.5, 50, 51.84, 54, 65, 76.8, 80, 100, 108, 122.88, 125, 133.330, 148.35, 148.5, 150, 155.52, 156.25, 161.1328125, 200, 312.5, and 400
  • Device can support any frequency between 1MHz to 400MHz. Contact TI representative for any frequency and samples needed

Texas Instruments’ Bulk-Acoustic Wave (BAW) is a micro-resonator technology that enables integration of high-precision BAW resonator directly into packages with ultra-low jitter clock circuitry. BAW is fully designed and manufactured at TI factories like other silicon-based fabrication processes.

The LMK6x device is an ultra-low jitter, fixed-frequency oscillator which incorporates the BAW as the resonator source. The device is factory-programmed per specific operation mode, including frequency, voltage, output type, and function pin. 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 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.

Texas Instruments’ Bulk-Acoustic Wave (BAW) is a micro-resonator technology that enables integration of high-precision BAW resonator directly into packages with ultra-low jitter clock circuitry. BAW is fully designed and manufactured at TI factories like other silicon-based fabrication processes.

The LMK6x device is an ultra-low jitter, fixed-frequency oscillator which incorporates the BAW as the resonator source. The device is factory-programmed per specific operation mode, including frequency, voltage, output type, and function pin. 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 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.

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Technische Dokumentation

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Typ Titel Datum
* Data sheet LMK6x Low Jitter, High-Performance BAW Oscillator datasheet (Rev. E) PDF | HTML 16 Apr 2024
Application note Universal Land Patterns for LMK6D, LMK6P, and LMK6H BAW Oscillators (Rev. A) PDF | HTML 05 Sep 2024
Application note LMK6x OPN Decoder PDF | HTML 30 Aug 2024
Application note Driving Multiple Loads With a Single LVCMOS Oscillator PDF | HTML 23 Aug 2024
Application note Jitter and Phase Noise Measurement Techniques for BAW Oscillators PDF | HTML 30 Jan 2024
Application note Clocking for PCIe Applications PDF | HTML 28 Nov 2023
Application brief BAW Oscillator Solutions for Motor Drivers (Rev. A) PDF | HTML 06 Aug 2023
Application note EMC/EMI Compliant Design for Single Pair Ethernet PDF | HTML 22 Jul 2023
Application note Vibration and Mechanical Shock Performance of TI BAW Oscillators PDF | HTML 11 Jul 2023
Application note High Reliable BAW Oscillator MTBF and FIT Rate Calculations PDF | HTML 28 Jun 2023
Application brief BAW Oscillator Solutions for Network Interface Card PDF | HTML 11 Mai 2023
Application brief BAW-Oszillator-Lösungen für die Fertigungsautomatisierung PDF | HTML 16 Feb 2023
Application brief BAW-Oszillator-Lösungen für die Gebäudeautomation PDF | HTML 16 Feb 2023
Application brief BAW-Oszillator-Lösungen für die Stromnetzinfrastruktur PDF | HTML 16 Feb 2023
Application brief BAW-Oszillatorlösungen für optische Module PDF | HTML 16 Feb 2023
Application note Eigenständige BAW-Oszillatoren – Vorteile gegenüber Quarzoszillatoren PDF | HTML 16 Feb 2023
EVM User's guide LMK6x Evaluation Module User's Guide (Rev. C) PDF | HTML 28 Apr 2022
Technical article TI BAW resonator innovation puts time on your side PDF | HTML 05 Mär 2019
Technical article Are you ready for BAW? PDF | HTML 27 Feb 2019
Technical article Top 5 things to know about TI BAW resonator technology PDF | HTML 27 Feb 2019
Technical article How to select an optimal clocking solution for your FPGA-based design PDF | HTML 09 Dez 2015

Design und Entwicklung

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Evaluierungsplatine

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Simulationstool

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Referenzdesigns

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Design guide: PDF
Gehäuse Pins CAD-Symbole, Footprints und 3D-Modelle
VSON (DLE) 4 Ultra Librarian
VSON (DLF) 4 Ultra Librarian

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  • Blei-Finish/Ball-Material
  • MSL-Rating / Spitzenrückfluss
  • MTBF-/FIT-Schätzungen
  • Materialinhalt
  • Qualifikationszusammenfassung
  • Kontinuierliches Zuverlässigkeitsmonitoring
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