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CPPC4L-A3B6-120.0TS

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CPPC4L-A3B6-120.0TS

CPPC4L-A3B6-120.0TS

  • Description:XTAL OSC XO 120.0000MHZ CMOS TH
  • Series:FIPO™ CPP
  • Mfr:Cardinal Components Inc.
  • Package:Tube

SKU:43c6c8b29b11 Category: Brand:

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Product Detailed Parameters

  • Description:XTAL OSC XO 120.0000MHZ CMOS TH
  • Series:FIPO™ CPP
  • Mfr:Cardinal Components Inc.
  • Package:Tube
  • Base Resonator:Crystal
  • Type:XO (Standard)
  • Frequency:120 MHz
  • Function:Enable/Disable
  • Output:CMOS
  • Voltage - Supply:3.3V
  • Frequency Stability:±100ppm
  • Absolute Pull Range (APR):-
  • Operating Temperature:-55°C ~ 125°C
  • Spread Spectrum Bandwidth:-
  • Current - Supply (Max):25mA
  • Ratings:-
  • Mounting Type:Through Hole
  • Package / Case:8-DIP (0.300", 7.62mm), 4 Leads
  • Size / Dimension:0.520" L x 0.520" W (13.20mm x 13.20mm)
  • Height - Seated (Max):0.256" (6.50mm)

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CPPC4L-A3B6-120.0TS

How to buy
Online and offline orders are supported. If the item is available for online purchase, you can place it in the cart; for wholesale pricing, please contact our product manager for a quote.
Payment Method
Payment methods: T/T, WeChat Pay, credit cards, Google Pay, Apple Pay . Buyer covers shipping, fees, duties, and taxes; contact our product manager if you need a contract/procurement process.
Delivery time
In-stock items usually ship within 24 hours. Otherwise, shipment is arranged 1 to 2 days after the items arrive at our warehouse. Timing depends on destination and shipping method.
Freight calculation
Freight cost depends on destination, package size, and weight . We offer shipping options via DHL, FedEx, UPS, and TNT , and can ship using your freight account upon request.
Mode of Transportation
We ship via DHL, FedEx, UPS, and TNT. If you prefer a specific logistics provider, we can ship using your designated carrier.
Return and Refund
Returns are accepted within 60 days of invoice with RMA approval. Items must be resalable; original invoice and test report are required. No returns for customer errors.

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Buying Guide
Summary

Cardinal Components Inc. CPPC4L-A3B6-120-0TS is a component in Oscillators category typically evaluated for fit, operating limits, and supportability in production. Key specs include Description (XTAL OSC XO 120.0000MHZ CMOS TH), Series (FIPO™ CPP), Type (XO (Standard)), Packaging (Tube), and Supply (3.3V).

Selection Notes
  • For CPPC4L-A3B6-120-0TS, confirm the supply current (25mA) is acceptable for standby and active operation.
  • Confirm the operating frequency (120 MHz) and any related tolerance requirements.
  • Verify the operating temperature range (-55°C ~ 125°C) and derate as needed in your application.
  • Make sure Current - Supply (Max) (25mA) aligns with your design targets and verification plan.
Alternates & Substitutions
  • For Oscillators, compare the datasheet test conditions behind key specs and re-check the margins that were tightest during bring-up.
  • When evaluating alternates, treat package/case 8-DIP (0.300", 7.62mm), 4 Leads, mounting Through Hole, packaging Tube as non-negotiable unless you are re-spinning the PCB.
  • Check that supply 3.3V, temperature -55°C ~ 125°C matches your system, then validate at corners instead of relying on typical values.
  • When in doubt, treat the swap as an ECO: define acceptance criteria, then validate under worst-case operating corners.
FAQ

What should I compare when selecting an alternate for CPPC4L-A3B6-120-0TS?
Compare footprint/pinout, key electrical limits, temperature range, and interface requirements, then validate under worst-case conditions.

What operating temperature range is listed for CPPC4L-A3B6-120-0TS?
-55°C ~ 125°C

What package/case is listed for CPPC4L-A3B6-120-0TS?
8-DIP (0.300", 7.62mm), 4 Leads

Which Frequency Stability is specified for CPPC4L-A3B6-120-0TS?
±100ppm

Application Scenarios

Selecting Cardinal Components Inc. CPPC4L-A3B6-120-0TS for Oscillators usually comes down to meeting the system constraints that matter most: limits, interfaces, and testability in the real build. A solid timing choice keeps margins stable by reducing sensitivity to supply ripple, temperature drift, and routing-induced noise. In practice, engineers often prefer timing parts with clear grounding and routing guidance, because layout decides whether jitter stays inside budget. In telecom and networking, jitter budgets and timing distribution determine link stability in 24/7 racks. In telecom and networking, timing components keep Ethernet switches and line cards synchronized in 24/7 racks with limited airflow and strict jitter budgets. In industrial motion control, they stabilize capture timing and PWM generation in servo drives exposed to inverter EMI and large thermal gradients. In field deployments, stable behavior across temperature and supply variation is what prevents hard-to-reproduce failures.

Compatibility Advice
  • For compatibility, confirm jitter/phase-noise assumptions with the real power and grounding so system timing margins remain measurable with the final enclosure and cabling.
  • Verify startup, enable, and load conditions so oscillation is deterministic across temperature and aging before release to production.
Project Fit
  • Best fit for Oscillators when you can validate the key assumptions on the assembled system and keep acceptance criteria measurable.
CPPC4L-A3B6-120.0TSCPPC4L-A3B6-120.0TS

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