08-50-0113 Crimp Terminal: Datasheet & Sourcing Insights

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08-50-0113 Crimp Terminal: Datasheet & Sourcing Insights

Engineers and buyers still specify 08-50-0113 because it hits a practical sweet spot: a single-position crimp terminal that fits common wire ranges, occupies minimal footprint for .100" (2.54 mm) pitch systems, and remains cost-effective for high-volume assemblies. Market signals show steady availability but intermittent lead-time variability, so this article breaks the official datasheet into the exact fields you must verify and delivers a hands-on sourcing checklist to speed qualification and purchasing.

In this introduction the main objects are clear: confirm the 08-50-0113 identifier, extract electrical and mechanical limits from the datasheet, and follow a concise procurement path. The term crimp terminal and datasheet appear here to orient search and review workflows.

Product Overview & Key Specs — 08-50-0113 at a Glance

08-50-0113 Crimp Terminal: Datasheet & Sourcing Insights

Physical & Electrical Summary

Point: 08-50-0113 is a single-position female crimp contact intended for KK .100" (2.54 mm) family housings. Evidence from manufacturer data shows a wire range of 22–30 AWG, a continuous current rating typically around 3 A, and hot-tin (Sn) dip plating. Typical operating temperature is –40°C to +105°C.

Explanation: When creating a procurement spec, surface these six to eight fields: exact part ID, AWG range, max continuous current, contact resistance limit, plating/finish, operating temperature, recommended crimp tooling, and packaging quantity.

Common Mating Housings

Point: Verify housing compatibility by matching series name, pitch, and locking features. Evidence: KK-series housings use .100" pitch and require terminals with matching tang geometry and retention lances.

Explanation: Confirm locking tang presence, retention force, insertion depth, and rated mating cycles (mechanical life) from the housing and contact datasheets before approval.

Datasheet Deep Dive: What to Extract & How to Interpret

Critical Electrical and Mechanical Test Data

  • Contact resistance: Note the maximum (typical ≤20 mΩ) and test method; use this to set acceptance criteria.
  • Dielectric withstanding voltage: Record VAC test and MΩ limits to validate isolation.
  • Current vs. temperature: Use the datasheet current rating curve to derate at elevated ambient temperatures.
  • Mechanical life: Log recommended mating cycles and pull-out force to define reliability targets.

Explanation: Interpret limits by applying a 20–30% derating margin for continuous operation in harsh environments.

Materials, Finishes & Recommended Tooling

Point: Datasheet fields to capture include contact base metal, plating type and thickness, RoHS compliance, packaging form, and tooling references. Evidence: This part is tin-plated over a copper alloy; common reel quantity is 2,000 pieces. Explanation: Record plating and RoHS flags for warranty, and list recommended tooling in your procurement spec.

Parameter Typical Value / Procurement Field Visual Indicator
Part Number 08-50-0113
Wire AWG Range 22–30 AWG
Current Rating ≈3 A continuous
Contact Resistance ≤20 mΩ (max)
Plating Hot-tin (Sn) dip
Operating Temp –40°C to +105°C

Sourcing Market Snapshot

Availability Indicators: Watch global distributor stock and MOQ shifts. Low stock or sudden increases in minimum reel quantities are early flags. Log stock-on-hand and lot codes.

Pricing Benchmarks: Gold plating and smaller pack quantities raise unit cost. Negotiate by consolidating related SKUs on reels and seeking multi-year terms.

Design Selection Guide

Wire & Insulation: Confirm strand count compatibility. Define acceptance tests: crimp-height inspection, pull-test target, and cross-section check.

Environmental: Choose plating based on corrosion. Tin is cost-effective for general electronics; gold is for low resistance and high corrosion immunity.

Quality, Compliance & Counterfeit Risk

Incoming Inspection Checklist

  • Visual ID & Package integrity check.
  • Barrel ID/Width measurement.
  • Continuity & Resistance sampling.
  • Mechanical pull tests to datasheet targets.

Approved Alternates Strategy

Build an alternates shortlist by exact-matching AWG range, current rating, plating, and pitch. Maintain a matrix in your quality system to speed recovery during primary supply constraints.

Procurement Action Plan

Step-by-Step Sourcing

  • Draft spec capturing 8 critical fields.
  • Request samples and lot CoC.
  • Validate sample crimps with production tooling.
  • Finalize PO terms & warranty.

Long-term Strategy

Mitigate risk with multi-sourcing and inventory buffering. Include re-test triggers for new lot codes and protect against obsolescence and lead-time spikes.

Key Summary

  • 1 Verify AWG 22–30, current ≈3 A and contact resistance ≤20 mΩ from the datasheet before approval.
  • 2 Record plating, packaging qty (reel vs. loose), and recommended tooling to avoid assembly mismatches.
  • 3 Monitor distributor stock and MOQ shifts; use alternates filtered by AWG and plating to recover quickly.

Frequently Asked Questions

Is 08-50-0113 suitable for 22 AWG high-current runs? +
Yes—08-50-0113 is rated for 22–30 AWG with an approximate continuous rating around 3 A; apply a derating margin for elevated ambient temperature and validate with application-specific current vs. temperature data from the datasheet.
How should I test incoming 08-50-0113 lots for quality? +
Perform visual ID and dimensional checks, sample contact resistance measurements, and mechanical pull tests to datasheet values. Require CoC and lot traceability; reject lots that fail documented acceptance thresholds.
Can I substitute an alternate for 08-50-0113 without requalification? +
Only if the alternate matches AWG range, current rating, plating, contact geometry, and pitch, and passes sample electrical and mechanical tests. Document cross-reference decisions and run sample validation before production adoption.

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