191167xl

What Is 191167xl?

The identifier 191167xl might sound like just another stock code, but it typically refers to a specific type of electronic component—commonly a connector, cable, or interface in manufacture and prototyping use. While the specifics can vary depending on the distributor or product catalog, these types of part numbers are standard identifiers for vendors and OEMs.

This part is known for its durability and compatibility with highend systems. Its construction usually supports consistent signal transmission and robust mechanical resilience, making it ideal for industrial and commercial applications.

Understanding SKUs like this is half about availability and half about application. If you’re trying to keep downtime low in a manufacturing setting or aiming for longevity in a final product, knowing specs like 191167xl becomes a real edge.

Core Specifications

Though component subcategories vary, here’s what’s typically associated with 191167xl:

Connector Type: Multipin, often configured for signal or limited load power. Material: Usually some combo of polyamide housing and gold or tinplated pins. Mounting Style: PCBmounted or panel mount, depending on final product chassis. Rating: IPrated in many cases, meaning some water or dust protection. Compliance: RoHScompliant and often ULapproved.

The point here is predictability. Engineers need dependable parts, and this SKU aims to deliver that consistency across product lines and integrations.

Common Use Cases

Wondering where you’ll actually run into this? The 191167xl part shows up in a few key places:

Automation systems: Think conveyor belts, assemblyline sensors, or actuators. Industrial IoT devices: These require longlasting, secure connections. Consumer electronics repair: Sometimes used in highend devices for internal wiring.

Its main draw is reliability. It’s rarely just about signal integrity—survival in harsh conditions is often the dealbreaker. That’s why many legacy installations still use it years later with few failures.

Why It’s Popular with Engineers

Engineers don’t pick parts casually. There are a few clear reasons why 191167xl holds its ground:

Compatibility: Works across multiple platforms and standards. Availability: Stocked by major distributors globally. Documentation: Most versions have detailed datasheets and CAD files. Pricing stability: While not the cheapest, prices don’t fluctuate erratically.

In other words, you can plan designs with it without worrying you’ll need redesigns or sourcing hacks a few months down the road.

Installation Notes

Let’s keep it simple. Installing a 191167xl component typically requires:

1. Proper alignment before insertion—pins can bend, and misalignment means redo work.
2. Crimping or soldering tools (depends on the housing and version).
3. Clean surfaces—dust or particles can ruin the connection long term.
4. Verification—check resistance or continuity postinstall to verify a good connection.

Amateurs often forget step 4. Don’t be that person.

191167xl in the Field

All specs aside, what really makes 191167xl worth your time is how it performs in actual environments.

In field tests, connectors like these have shown less than 0.3% failure rate over a 10,000hour runtime, even in environments with temperature swings or vibration. That low ROI risk is gold for anyone managing longterm hardware deployments.

And because it’s standardized, replacement or repair work doesn’t require starting from scratch. Installers don’t have to guess; they just reorder the same part and plug it back in. This is especially important for distributed systems like those found in smart buildings or factory floors.

Supply Chain and Sourcing Tips

If you’re sourcing parts for 10 prototypes or 10,000 units, the approach matters.

1. Bulk orders: Save costs, but watch lead times—191167xl can sometimes face 6–8week delays, especially during global slowdowns.
2. Crossreference: Always have a secondary SKU in case a distributor runs out. Tools like Octopart or FindChips help you compare.
3. Vendor vetting: Stick to big names or vetted suppliers. The knockoffs don’t last, and failure costs more than the savings.

There’s a small gray market around popular parts. Don’t take shortcuts unless you really know what you’re doing.

Best Practices

Using 191167xl effectively means following standard industry practices:

Label your cables and connectors. Lifecycle maintenance gets 10x easier. Use proper strain relief. Cable tension kills more connections than wear. Confirm pinouts. They change depending on connector revision or board design.

These basics can be the difference between “plugandplay” and “why isn’t this working.”

Final Thoughts

What seems like just a part number—191167xl—is actually shorthand for a dependable, fieldtested component that solves a real problem: keeping connections solid under pressure. Whether you’re building new or maintaining infrastructure, knowledge is leverage, and this SKU is worth knowing.

In the world of hardware, the best parts don’t always come with buzz—sometimes they just show up, perform, and never get noticed. That’s the point.

Additional Resources and Next Steps

Datasheet downloads: Manufacturer sites often give freeandclear PDFs. Community boards: Search forums or Reddit Tek groups for mod tips. Tool compatibility: Check your connectors against crimp or solder specs before purchase.

If 191167xl is part of your BOM (build of materials), you’re in good company. Just keep your documentation sharp, check your sourcing, and you’ll avoid 90% of the problems before they start.