SIP4282DVP-3-T1-E3

Vishay Siliconix

IC PWR SWITCH P-CHAN 1:1 PWRPAK

209778 Pcs New Original In Stock

Power Switch/Driver 1:1 P-Channel 1.4A PowerPAK® SC-75-6L

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5.0 / 5.0 - (461 Ratings)

SIP4282DVP-3-T1-E3

Name: Vishay Siliconix SIP4282DVP-3-T1-E3
Brand: Vishay Siliconix
SKU: SIP4282DVP3T1E3
Price: 0.2544 USD
Availability: InStock
Rating: 5.0 (461 reviews)

Product Overview

1112206

DiGi Electronics Part Number

SIP4282DVP-3-T1-E3-DG

Manufacturer

Vishay Siliconix

Manufacturer Product Number SIP4282DVP-3-T1-E3

Description

IC PWR SWITCH P-CHAN 1:1 PWRPAK

Inventory

209778 Pcs New Original In Stock

Detailed Description Power Switch/Driver 1:1 P-Channel 1.4A PowerPAK® SC-75-6L

See all Power Distribution Switches, Load Drivers

Datasheet SIP4282DVP-3-T1-E3 Datasheet

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Minimum 1

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Basic cost: USD 70.00

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In Stock (All prices are in USD)

QTY Target Price Total Price
1 0.2544 0.2544
200 0.0984 19.6800
500 0.0950 47.5000
1000 0.0933 93.3000

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SIP4282DVP-3-T1-E3 Technical Specifications

Datasheet & Documents

Datasheets

Download SIP4282DVP-3-T1-E3 Product Specification (PDF)

HTML Datasheet

SIP4282DVP-3-T1-E3-DG

Environmental & Export Classification

RoHS Status ROHS3 Compliant

Moisture Sensitivity Level (MSL) 1 (Unlimited)

ECCN EAR99

HTSUS 8542.39.0001

Additional Information

Standard Package

3,000

Reviews

5.0/5.0-(Show up to 5 Ratings)

하***별빛

Dec 02, 2025

5.0

고객 서비스와 배송 모두 훌륭해서 재구매 의사가 생겼어요.

Wan***pfad

Dec 02, 2025

5.0

Der Versand hat super schnell geklappt, und der Kundenservice war sehr professionell.

FreshP***pective

Dec 02, 2025

5.0

Fast shipping and reliable logistics made my shopping experience very positive.

Hap***rail

Dec 02, 2025

5.0

Their discounts and deals make shopping here a cost-effective choice.

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Frequently Asked Questions (FAQ)

What are the key reliability risks when using the SIP4282DVP-3-T1-E3 in high-temperature automotive applications near its 125°C junction limit?

When operating the SIP4282DVP-3-T1-E3 near its 125°C TJ(max), thermal derating becomes critical—output current should be reduced to avoid Rds(on) degradation and accelerated electromigration. Ensure adequate PCB copper area for heat spreading and avoid sustained operation above 110°C without thermal simulation. The PowerPAK® SC-75-6L package has limited thermal mass, so junction-to-ambient resistance (θJA) can exceed 80°C/W in compact layouts, increasing failure risk under load transients. Always validate thermal performance with real-world duty cycles, especially in under-hood or infotainment systems where ambient temperatures exceed 85°C.

Can the SIP4282DVP-3-T1-E3 safely replace a TI TPS22916 in a 3.3V USB power path application with inrush-sensitive loads?

While both are P-channel high-side switches, the SIP4282DVP-3-T1-E3 lacks integrated current limiting and overvoltage protection present in the TPS22916, making it riskier for USB hot-plug scenarios. However, its slew rate control and load discharge features help mitigate inrush if paired with an external soft-start RC network. For direct drop-in replacement, add a 10–22 µF ceramic input capacitor and verify that the 1.4A continuous rating meets your peak load demands. Monitor for voltage droop during turn-on, as the SIP4282DVP-3-T1-E3’s 105mΩ Rds(on) may cause higher IR drop than the TPS22916’s 55mΩ under similar conditions.

How does the absence of Vcc/Vdd supply requirement in the SIP4282DVP-3-T1-E3 affect integration in battery-powered IoT devices with deep sleep modes?

The SIP4282DVP-3-T1-E3’s self-powered operation (no separate Vcc) simplifies design and reduces quiescent current, making it ideal for battery-powered IoT nodes. However, this also means the gate drive is derived directly from the input voltage, so turning off the switch when VIN is present but the load is disconnected can leave residual leakage (~µA range). In ultra-low-power designs, confirm total system leakage meets your sleep current budget (<1 µA). Additionally, ensure the enable signal (if used) swings rail-to-rail relative to VIN to guarantee full turn-off, especially at low battery voltages (e.g., <2.5V).

What layout considerations are critical to prevent oscillation or premature turn-off when using the SIP4282DVP-3-T1-E3 with long input traces or high-capacitance loads?

The SIP4282DVP-3-T1-E3’s non-inverting input and slew rate control help stabilize switching, but long input traces introduce parasitic inductance that can couple noise into the gate drive, causing unintended turn-off or ringing. Keep the input loop (VIN to IC to CIN) as short as possible—place a 1–10 µF low-ESR ceramic capacitor within 3 mm of the package. For loads >100 µF, add a small series resistor (0.1–1 Ω) at the output to dampen LC resonance between load capacitance and PCB inductance. Avoid routing sensitive analog signals under or adjacent to the power path to prevent coupling during switching transitions.

Is the SIP4282DVP-3-T1-E3 suitable for hot-swap applications in 5V industrial backplanes, and what external protections are necessary?

The SIP4282DVP-3-T1-E3 can be used in 5V hot-swap applications but requires external protection due to lack of built-in overcurrent or short-circuit limiting. Implement a foldback current limit circuit or use a polyfuse upstream to handle inrush from bulk capacitance. The device’s 1.4A max output current and 5.5V max rating align with 5V backplanes, but sustained short circuits may exceed safe operating area (SOA) without fast shutdown. Add a comparator-based fault monitor on the output to disable the switch within microseconds during faults. Also, ensure ESD protection diodes are placed at the input to meet IEC 61000-4-2 requirements common in industrial environments.

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