TDK Corporation CGA5L1X7R0J226M160AE

Overview

CGA5L1X7R0J226M160AE from TDK is a multilayer ceramic capacitor designed for compact board-level decoupling, filtering, energy buffering, and signal-conditioning roles in dense electronic assemblies. This MLCC combines a 22μF nominal capacitance, 6.3V rated voltage, X7R dielectric system, ±20% tolerance, and 1206-size package footprint, making it suitable for AI server motherboards, accelerator cards, storage modules, networking hardware, and other high-density digital or mixed-signal platforms where ceramic stability and footprint efficiency matter.

The selected X7R dielectric, -55~+125°C operating-temperature class, and package size give CGA5L1X7R0J226M160AE a design profile aligned with high-density decoupling or filtering tasks where board area, impedance behavior, and rail stability are important. For engineers reviewing the CGA5L1X7R0J226M160AE datasheet, CGA5L1X7R0J226M160AE pinout, CGA5L1X7R0J226M160AE application, or CGA5L1X7R0J226M160AE equivalent, this device is widely used in power-rail decoupling, point-of-load output filtering, control-plane support networks, storage and networking modules, and compact high-speed embedded hardware.

Applications

Equivalent & Alternatives

When evaluating a CGA5L1X7R0J226M160AE equivalent, engineers should compare capacitance, package size, rated voltage, dielectric class, tolerance, temperature range, and actual board role before substitution.

Compared with C3225X7R1C226M250AC and C1608X7R1A106M080AT, CGA5L1X7R0J226M160AE should be selected according to the exact capacitance, package, voltage rating, dielectric behavior, tolerance, and temperature-class needs of the target board location. Substitution decisions for MLCCs should also consider DC-bias behavior, effective capacitance under load, and placement role on the rail or signal path.

Quality

CGA5L1X7R0J226M160AE should be sourced as original branded MLCC inventory through traceable supply channels. Quality checks may include package inspection, marking and reel-label verification, solderability review, and lot-level handling controls appropriate for ceramic capacitors.

Production validation should include capacitance verification where needed, board-level placement review, reflow-process compatibility, and local rail or signal-integrity confirmation in the final mounted application.

Availability

CGA5L1X7R0J226M160AE is suitable for AI server, accelerator, storage, networking, and high-density embedded hardware that needs compact MLCC support for decoupling, filtering, or local energy storage.

Sample and NPI supply support, as well as urgent in-stock supply support, can also be arranged for prototype builds, pilot runs, and time-critical production needs.

For production builds, confirming capacitance, package size, dielectric class, rated voltage, tolerance, temperature range, lifecycle status, and sourcing continuity helps reduce passive-component procurement risk.

Manufacturer

TDK is a passive-component manufacturer specializing in multilayer ceramic capacitors, inductors, magnetic devices, and electronic materials for automotive, industrial, communication, computing, and consumer electronic systems.

The CGA series is TDK's automotive MLCC line, built for board-level decoupling, filtering, and energy storage in applications that need stable ceramic-capacitor performance across wide operating temperature ranges.

FAQ

What is CGA5L1X7R0J226M160AE used for?

CGA5L1X7R0J226M160AE is used for MLCC decoupling, filtering, local energy storage, and signal-support functions on dense electronic boards such as servers, accelerators, networking cards, and control modules.

Where can I find the CGA5L1X7R0J226M160AE datasheet download?

The datasheet for CGA5L1X7R0J226M160AE is the specification link provided in the workbook and should be used to confirm electrical and mechanical details for final part approval.

What should be considered when selecting CGA5L1X7R0J226M160AE?

Designers should verify capacitance, package size, rated voltage, dielectric class, tolerance, temperature range, and the expected effective capacitance at the actual working bias and placement point.

Is CGA5L1X7R0J226M160AE suitable for power-rail decoupling?

CGA5L1X7R0J226M160AE can be suitable for power-rail decoupling when its capacitance, dielectric, package, and voltage class align with the target rail and placement objective.

What are common CGA5L1X7R0J226M160AE equivalent solutions?

Common equivalents should be chosen by matching capacitance, package, voltage rating, dielectric behavior, tolerance, and operating-temperature class as closely as possible.