39012060 connector specs: Complete datasheet & ratings

3 February 2026 24
Power & Signal 6-Position Dual-Row

Introduction

In typical power and signal uses, the 39012060 identifier is specified for 6-position, dual-row power harnesses rated for mid-teens amperage per circuit and broad operating temperatures. This introduction summarizes the key datapoints engineers verify on a datasheet—current per circuit, insulation and contact resistance, mechanical retention, and environmental limits—so selection and replacement decisions match field demands.

What the 39012060 Connector is: Part Overview & Identifiers

39012060 connector specs: Complete datasheet & ratings

Part-Number Anatomy & Common Device Identifiers

Point: The numeric code denotes a family-style housing with position and row information.

Evidence: Typical catalog entries show a 6-position, 2-row crimp housing with ≈4.2 mm pitch and compatible crimp terminals.

Explanation: Read the code as family + position count + configuration to confirm mating geometry and terminal style; when listings include terms like “6-position,” “2-row,” “crimp housing,” they refer to the same canonical attributes for the 39012060 connector.

Typical Applications & Where it’s Used

Point: This style is chosen where compact multi-pin power is required.

Evidence: Common uses include small power supplies, internal wire-to-wire harnesses, appliance control wiring, and industrial control panels.

Explanation: The combination of a 6-pin dual-row layout, locking feature, and ~13 A per circuit capability makes the part appropriate for consumer electronics, white goods, and light industrial markets where space and reliable current delivery are both priorities.

Datasheet Deep-Dive: Electrical & Mechanical Ratings

Electrical Ratings to Verify

Point: Key electrical connector specs determine safe application limits.

Evidence: Typical datasheet entries list rated current per circuit (≈13 A), rated voltage (application dependent), contact resistance in the milliohm range, insulation resistance in the megaohm range, and recommended wire gauge (commonly AWG 16–22).

Explanation: Verify derating curves on the datasheet—elevated temperature or bundling reduces allowable current; look for dielectric withstanding voltage, temperature vs. current derating, and any pulse or inrush ratings to confirm suitability for motor or capacitive loads.

Mechanical & Durability Specs

Point: Mechanical values impact harness longevity and assembly fit.

Evidence: Datasheets typically specify pitch (~4.2 mm), two rows, mating cycles (insert/remove lifecycle), retention/pull-out force, contact type (socket/plug) and termination style (crimp).

Explanation: Also confirm housing polymer class, contact plating (e.g., tin or other finishes), and flammability rating (UL 94 class if provided). In panel or harness design, prioritize latch strength and housing stress points where strain relief meets the connector body.

Physical Dimensions, Pinout & Mating Specifications

Dimensional Drawing Insights

Point: Extract a concise set of CAD dimensions for accurate integration.

Evidence: Critical dimensions include overall housing footprint, pitch, row spacing, mating height, locking feature extents and cable entry diameter.

Explanation: Annotate tolerances on CAD drawings; acceptable ranges typically follow ±0.1–0.2 mm for pitch interfaces and tighter for mating features. Include callouts or an SVG/PDF excerpt that maps each dimension to PCB or harness constraints to prevent interference at assembly.

Pinout, Polarity & Mating

Point: Correct pin orientation and polarization prevent mis-mating.

Evidence: Datasheets show pin numbering, polarization keys, and latch locations; terminals are defined by contact gender and crimp type.

Explanation: Confirm mating direction and latch engagement during layout reviews; when replacing parts, match pitch, row count, contact gender and termination style. Use polarization keys or shrouds where available to eliminate reversal risks.

Technical Specifications Summary

Specification Field Typical Value / Technical Note Visualization
Part Identifier 39012060 (6 pos, 2 row crimp housing) Standard Code
Positions (Pins) 6 Positions
Pitch Spacing ~4.2 mm
Current Rating ~13 A per circuit
Temp Range −40°C to +105°C
Termination Crimp contacts (AWG 16–22) Wire-to-Wire/Board

Use-Case Examples & Compatibility Scenarios

Case Study A

6-Pin Power Harness for Small Appliances

Selection: For continuous 8–10 A load at +60°C ambient, select AWG 18–16 wire. Verify rated ≥13 A per circuit.

Insight: If continuous duty pushes temp higher, derate per curves or parallel pins where possible; ensure safety compliance with UL 94.

Case Study B

Wire-to-Wire Replacement Checklist

Strategy: Confirm pitch, row layout, housing orientation, terminal type, and latch geometry.

Validation: After replacement, perform continuity and contact resistance checks and a pull test to validate assembly robustness.

Installation, Testing & Procurement

Best Practices

Use the specified crimp die with recommended strip length, inspect crimp height and roll, and perform pull tests along with continuity and insulation resistance checks.

Include pass/fail thresholds in procedures—typical resistance limits are low milliohm values; pull forces per terminal family, and insulation resistance >10^6 ohms.

Procurement Checklist

Buyer items include confirming part ID versus official datasheet PDF, temperature rating, current rating, flammability class, packaging quantity and minimum order.

Maintain traceability by recording lot numbers and datasheet revision; contact technical support for lot traceability or custom assemblies.

Summary

  • [✓] Confirm electrical limits and derating: verify the rated current, contact resistance and insulation values on the official datasheet to ensure safe continuous operation under your environmental profile.
  • [✓] Validate mechanical fit early: extract footprint, pitch, mating height and latch dimensions to eliminate interference and ensure reliable harness assembly in CAD and prototypes.
  • [✓] Follow inspection and procurement controls: use the crimp/test procedure, record lot traceability, and include final ratings (positions, pitch, current, temp range) in purchase orders and assembly test plans.

Common Questions (FAQ)

What is the 39012060 connector current rating and how should I derate it? +
Typical rated current is about 13 A per circuit on many datasheets, but allowable continuous current drops with higher ambient temperature, bundling or limited ventilation. Use the datasheet derating curve: if operating temperature or harness grouping raises conductor temperature, reduce per-pin current or use larger gauge wire or parallel contacts.
How do I perform a 39012060 connector crimp and test procedure? +
Use the manufacturer-specified crimp die and recommended strip length, inspect crimp geometry, and run a pull test (per terminal family spec). Perform continuity and contact resistance tests—acceptance often requires milliohm-level resistance—and verify insulation resistance and visual integrity before assembly sign-off.
How can I confirm replacement compatibility for a 39012060 connector? +
Match pitch, row count, housing orientation, terminal gender and crimp style. Check mating height, latch position and material/temperature ratings on the official datasheet. After physical fit confirmation, perform continuity, contact resistance and pull tests to validate the replacement in the target harness.