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CDC6C-Q1

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Automotive, low-power, low-ppm, bulk-acoustic-wave (BAW), fixed-frequency LVCMOS oscillator

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Data sheet

CDC6C-Q1

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Data sheet Order now

Product details

Output frequency (MHz) 25, 27 Frequency range 250 kHz - 200 MHz Output type LVCMOS Stability (ppm) +/-25 Supply voltage (V) 1.8, 2.5, 3.3 Jitter (ps) 0.4 Operating temperature range (°C) -40 to 125
Output frequency (MHz) 25, 27 Frequency range 250 kHz - 200 MHz Output type LVCMOS Stability (ppm) +/-25 Supply voltage (V) 1.8, 2.5, 3.3 Jitter (ps) 0.4 Operating temperature range (°C) -40 to 125
VSON (DLR) 4 3.2 mm² 2 x 1.6
  • AEC Q-100 qualified:
    • Device temperature grade 1: –40°C to +125°C
  • Functional Safety-Capable:
  • LVCMOS output oscillator supporting frequency range from 250kHz to 200MHz
  • ±25ppm total frequency stability inclusive of all factors and including 10 years aging
  • Supply voltage supports 1.8V to 3.3V ±10%.
  • Very low power consumption: 4.57mA typical and 8mA maximum for 25MHz
  • Standby current 2µA typical helps for battery powered applications
  • Low jitter: < 1ps RMS jitter for Fout ≥ 10MHz
  • Smallest industry wettable flank standard package: 1.60mm × 1.20mm (DLY), 2.00mm × 1.60mm (DLR), 2.5mm × 2.00mm (DLF), 3.20mm × 2.5mm (DLN)
  • Integrated LDO for robust supply noise immunity
  • Start-up time < 3ms
    • Contact TI for different start-up times.
  • Orderable options for slow rise and fall time for EMI reduction
  • Contact TI representative for any frequency and samples needed.
  • AEC Q-100 qualified:
    • Device temperature grade 1: –40°C to +125°C
  • Functional Safety-Capable:
  • LVCMOS output oscillator supporting frequency range from 250kHz to 200MHz
  • ±25ppm total frequency stability inclusive of all factors and including 10 years aging
  • Supply voltage supports 1.8V to 3.3V ±10%.
  • Very low power consumption: 4.57mA typical and 8mA maximum for 25MHz
  • Standby current 2µA typical helps for battery powered applications
  • Low jitter: < 1ps RMS jitter for Fout ≥ 10MHz
  • Smallest industry wettable flank standard package: 1.60mm × 1.20mm (DLY), 2.00mm × 1.60mm (DLR), 2.5mm × 2.00mm (DLF), 3.20mm × 2.5mm (DLN)
  • Integrated LDO for robust supply noise immunity
  • Start-up time < 3ms
    • Contact TI for different start-up times.
  • Orderable options for slow rise and fall time for EMI reduction
  • Contact TI representative for any frequency and samples needed.

Texas Instruments’ high-precision Bulk-Acoustic Wave (BAW) micro-resonator technology is integrated directly into a package allowing for low jitter clock circuitry. BAW is fully designed and manufactured at TI factories like other silicon-based fabrication processes.

The CDC6Cx-Q1 device is a low jitter, low power, fixed-frequency oscillator which incorporates the BAW as the resonator source. The device is factory-programmed per specific frequency and function pin. With a frequency control logic and output frequency divider, the CDC6Cx-Q1 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, lower power consumption, flexibility, and small package options for this device are designed for reference clock and core clocks in automotive applications.

Texas Instruments’ high-precision Bulk-Acoustic Wave (BAW) micro-resonator technology is integrated directly into a package allowing for low jitter clock circuitry. BAW is fully designed and manufactured at TI factories like other silicon-based fabrication processes.

The CDC6Cx-Q1 device is a low jitter, low power, fixed-frequency oscillator which incorporates the BAW as the resonator source. The device is factory-programmed per specific frequency and function pin. With a frequency control logic and output frequency divider, the CDC6Cx-Q1 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, lower power consumption, flexibility, and small package options for this device are designed for reference clock and core clocks in automotive applications.
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Technical documentation

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Type Title Date
* Data sheet CDC6Cx-Q1 Low Power LVCMOS Output BAW Oscillator datasheet PDF | HTML 25 Mar 2025
Application note Clocking Selection Guide for FPD-Link III and FPD-Link IV SerDes PDF | HTML 17 Apr 2025
Technical article 不只是石英:BAW 時脈如何重新定義 ADAS 與 IVI PDF | HTML 15 Apr 2025
Technical article 쿼츠의 한계를 넘어: BAW 클록이 ADAS 및 IVI 를 재정의하는 방법 PDF | HTML 11 Apr 2025
Technical article Beyond quartz: How BAW clocks are redefining ADAS and IVI PDF | HTML 09 Apr 2025
Application brief In-Vehicle Infotainment Baw Clock Architecture PDF | HTML 08 Apr 2025
Functional safety information CDC6C-Q1 Functional Safety FIT Rate, FMD and Pin FMA PDF | HTML 20 Mar 2025
Application brief ADAS Domain Controller BAW Clock Architecture PDF | HTML 19 Mar 2025
Application brief BAW Solutions in Automotive Front Camera Systems PDF | HTML 19 Mar 2025
Application brief System Overview: Telematics Control Units PDF | HTML 04 Mar 2025
EVM User's guide CDC6CEVM Evaluation Module User's Guide PDF | HTML 22 Nov 2024

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Evaluation board

CDC6CEVM — CDC6C evaluation module

The CDC6EVM provides a complete platform to evaluate the clock performance and flexibility of the CDC6C low-power LVCMOS BAW oscillator family. This evaluation module can be used as a flexible clock source for compliance testing, performance evaluation and initial system prototyping. The onboard (...)
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PSpice® for TI is a design and simulation environment that helps evaluate functionality of analog circuits. This full-featured, design and simulation suite uses an analog analysis engine from Cadence®. Available at no cost, PSpice for TI includes one of the largest model libraries in the (...)
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