IL410-X017

Vishay Semiconductor Opto Division

OPTOISOLATOR 5.3KV TRIAC

1269 Pcs New Original In Stock

Optoisolator Triac Output 5300Vrms 1 Channel

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5.0 / 5.0 - (478 Ratings)

IL410-X017

Name: Vishay Semiconductor Opto Division IL410-X017
Brand: Vishay Semiconductor Opto Division
SKU: IL410X017
Price: 3.8366 USD
Availability: InStock
Rating: 5.0 (478 reviews)

Product Overview

1224080

DiGi Electronics Part Number

IL410-X017-DG

Manufacturer

Vishay Semiconductor Opto Division

Manufacturer Product Number IL410-X017

Description

OPTOISOLATOR 5.3KV TRIAC

Inventory

1269 Pcs New Original In Stock

Detailed Description Optoisolator Triac Output 5300Vrms 1 Channel

See all Triac, SCR Output Optoisolators

Datasheet IL410-X017 Datasheet

Video IL410-X017 Video

ECAD Model CAD Models - PCB Symbols & Footprints

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Minimum 1

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Freight

Basic cost: USD 70.00

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Shipped from Hong Kong via FedEx/DHL/UPS/TNT

Delivery Time

In-stock items: Ready to ship in 1-2 days

Transit time: 3-5 business days (FedEx/DHL/UPS)

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In Stock (All prices are in USD)

QTY Target Price Total Price
1 3.8366 3.8366
200 1.5303 306.0600
500 1.4802 740.1000
1000 1.4545 1454.5000

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IL410-X017 Technical Specifications

Datasheet & Documents

Datasheets

Download IL410-X017 Product Specification (PDF)

HTML Datasheet

IL410-X017-DG

Environmental & Export Classification

RoHS Status ROHS3 Compliant

Moisture Sensitivity Level (MSL) 1 (Unlimited)

REACH Status REACH Unaffected

ECCN EAR99

HTSUS 8541.49.8000

Additional Information

Standard Package

Reviews

5.0/5.0-(Show up to 5 Ratings)

Celes***lWave

Dec 02, 2025

5.0

DiGi Electronics’ competitive pricing is matched by their fast and reliable delivery.

Morn***Bliss

Dec 02, 2025

5.0

The after-sales support team was very attentive and responded within hours to my questions.

Clou***lker

Dec 02, 2025

5.0

Shipping was surprisingly fast, and I received my order within a few days.

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Frequently Asked Questions (FAQ)

Can the IL410-X017 be used in non-zero-crossing AC switching applications, and what risks should I consider if I do?

While the IL410-X017 includes a built-in zero-crossing circuit designed to minimize EMI by triggering near 0V AC, it can technically switch at any point in the AC cycle. However, forcing turn-on away from zero crossing—such as with pulsed LED drive—can cause high inrush currents and voltage transients in resistive or inductive loads, increasing EMI and stress on the triac. For non-zero-crossing control (e.g., phase-angle dimming), consider alternatives like the MOC3023 (non-zero-crossing optotriac) and ensure external snubbing (RC network) is used with the IL410-X017 to mitigate dV/dt-induced false triggering if used outside its intended mode.

How does the 10kV/µs static dV/dt rating of the IL410-X017 impact reliability in noisy industrial environments?

The IL410-X017's high 10kV/µs static dV/dt rating ensures robust performance in electrically noisy environments, such as motor control or AC line monitoring, where rapid voltage transients could falsely trigger the output triac. This rating means it can withstand fast voltage spikes across the triac without unintended turn-on, improving system reliability. However, in high-temperature or high-humidity conditions, ensure PCB creepage and clearance meet 5.3kV isolation requirements, and use conformal coating to prevent long-term insulation degradation that could undermine this dV/dt advantage.

Is the IL410-X017 a suitable drop-in replacement for the MOC3041 in AC load control circuits?

The IL410-X017 is not a direct replacement for the MOC3041 due to key differences: the IL410-X017 includes zero-crossing detection, while the MOC3041 does not, making it unsuitable for phase-control dimming. Additionally, the MOC3041 triggers at 15mA LED current, whereas IL410-X017 needs only 2mA max—so existing current-limiting resistors may overdrive the LED if reused. To replace MOC3041 with IL410-X017, redesign the LED drive circuit and verify that zero-crossing operation aligns with your load control strategy, especially for inductive or transformer-based loads requiring precise phase timing.

What design precautions are needed when driving inductive loads like solenoids with the IL410-X017 optoisolator?

When switching inductive loads with the IL410-X017, always include a snubber circuit (e.g., RC network across the triac) and consider a metal oxide varistor (MOV) on the AC line to suppress voltage kickback and prevent false triggering or triac latch-up. The 600V off-state voltage rating limits use to 240VAC nominal systems (max 340V peak). Also, ensure the 300mA RMS on-state current limit isn’t exceeded during surge events—use a series current-limiting resistor or external triac driver for higher-power loads.

How does the low 500µA hold current (Ih) of the IL410-X017 affect performance in battery-powered or energy-efficient systems?

The IL410-X017’s low 500µA hold current allows reliable turn-off even with small load currents, making it ideal for energy-efficient or battery-powered applications where leakage must be minimized. This low Ih supports stable operation with high-impedance or low-power loads (e.g., small heaters, indicator lamps) without unintended dropout. However, ensure the load current exceeds Ih at every half-cycle zero crossing—otherwise, the triac may not sustain conduction. In systems with capacitive filtering or discontinuous loads, simulate worst-case current waveforms or add a small bleeder resistor to maintain reliable switching.

Quality Assurance (QC)

DiGi ensures the quality and authenticity of every electronic component through professional inspections and batch sampling, guaranteeing reliable sourcing, stable performance, and compliance with technical specifications, helping customers reduce supply chain risks and confidently use components in production.

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