TC1413EUA

Microchip Technology

IC GATE DRVR LOW-SIDE 8MSOP

1129 Pcs New Original In Stock

Low-Side Gate Driver IC Inverting 8-MSOP

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5.0 / 5.0 - (185 Ratings)

TC1413EUA

Name: Microchip Technology TC1413EUA
Brand: Microchip Technology
SKU: TC1413EUA
Price: 1.5343 USD
Availability: InStock
Rating: 5.0 (185 reviews)

Product Overview

1675813

DiGi Electronics Part Number

TC1413EUA-DG

Manufacturer

Microchip Technology

Manufacturer Product Number TC1413EUA

Description

IC GATE DRVR LOW-SIDE 8MSOP

Inventory

1129 Pcs New Original In Stock

Detailed Description Low-Side Gate Driver IC Inverting 8-MSOP

See all Gate Drivers

Datasheet TC1413EUA Datasheet

Quantity
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 1.5343 1.5343
200 0.5947 118.9400
500 0.5728 286.4000
1000 0.5626 562.6000

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TC1413EUA Technical Specifications

Datasheet & Documents

Datasheets

Download TC1413EUA Product Specification (PDF)

Manuals

Development Tools Catalog

HTML Datasheet

TC1413EUA-DG

PCN Design/Specification

Datasheet Update 09/Mar/2015

Environmental & Export Classification

RoHS Status ROHS3 Compliant

Moisture Sensitivity Level (MSL) 1 (Unlimited)

REACH Status REACH Unaffected

ECCN EAR99

HTSUS 8542.39.0001

Additional Information

Other Names

TC1413EUA-NDR

Standard Package

100

Reviews

5.0/5.0-(Show up to 5 Ratings)

별***한밤

December 02, 2025

5.0

DiGi Electronics는 정말 믿을 수 있는 곳입니다. 항상 고객의 요구에 귀 기울이며 신뢰할 만한 서비스를 제공해줍니다.

Map***eaf

December 02, 2025

5.0

Every time I seek assistance, DiGi Electronics delivers timely and effective solutions.

Azu***ream

December 02, 2025

5.0

Their products are constructed to the highest standards, ensuring longevity and performance.

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Frequently Asked Questions (FAQ)

When designing in the TC1413EUA low-side gate driver, what risks should I consider regarding input logic thresholds when interfacing with 3.3V microcontrollers in noisy environments?

The TC1413EUA specifies VIH at 2V and VIL at 0.8V, which makes it 3.3V logic compatible. However, in noisy environments, the 2V VIH threshold does not provide full noise margin relative to a 3.3V output driving high. This increases the risk of false gating due to voltage droops or ringing on the input line. To mitigate this, use a small series resistor and ferrite bead near the TC1413EUA input pin, or consider a level shifter with tighter thresholds if the system operates in high EMI conditions. Always verify input signal integrity with oscilloscope measurements under real load transients when using the TC1413EUA in such configurations.

Can the TC1413EUA replace the popular TC4420 in a motor drive application, and what are the key trade-offs I should evaluate?

The TC1413EUA can serve as a functional replacement for the TC4420 in many low-side drive applications, but with important caveats. Both offer 3A peak drive and operate up to 16V, but the TC1420 has non-inverting and inverting versions with complementary inputs, while the TC1413EUA is inverting only. This limits flexibility in dead-time control compared to dual-output drivers like the TC4420. Additionally, the TC1413EUA's single-channel design means you'll need two devices for half-bridge setups, increasing PCB area. Evaluate whether your control logic can accommodate the inversion and confirm timing performance under your specific MOSFET gate charge loads before switching.

How does the TC1413EUA perform when driving high gate charge MOSFETs in fast-switching power supplies, and what layout practices are critical to maintain 20ns rise/fall times?

The TC1413EUA is capable of driving high gate charge MOSFETs with its 3A sink/source capability, but achieving the datasheet 20ns rise/fall times depends heavily on PCB layout. Use a dedicated ground plane, minimize gate loop inductance by placing the TC1413EUA close to the MOSFET, and use short, wide traces for the gate path. Include a low-inductance 0.1µF ceramic bypass capacitor between VDD and GND near the 8-MSOP package. Poor layout can increase effective switching time by 2–3x, degrading efficiency and thermal performance in high-frequency designs using the TC1413EUA.

What reliability concerns should I assess when using the TC1413EUA in automotive under-hood applications near 150°C junction temperature?

While the TC1413EUA is rated for junction temperatures up to 150°C, sustained operation near this limit increases long-term failure risk due to electromigration and thermal cycling stress. In under-hood applications, ensure adequate PCB copper for heatsinking—use multiple vias under the exposed pad if available—and monitor TJ via thermal imaging or simulation. Derate current drive and consider periodic stress testing. Also verify that the MOSFET turn-off speed remains sufficient at high temperatures, as gate driver strength can degrade with thermal aging. The TC1413EUA’s MSL 1 rating supports robust handling, but solder joint fatigue remains a concern in wide thermal swing environments.

Is the TC1413EUA suitable for driving P-channel MOSFETs in high-side switch applications, and what are the limitations compared to dedicated high-side drivers?

The TC1413EUA can drive P-channel MOSFETs in high-side configurations due to its compatible logic and voltage range, but it lacks bootstrap or level-shifting circuitry found in true high-side drivers like the IRS21844. In a high-side P-FET setup, the TC1413EUA works only when the source node is referenced to a stable rail, such as in always-on 12V systems. Avoid using it in applications with floating or switched sources, as shoot-through or incomplete turn-on can occur. Additionally, inverting input logic may complicate control timing compared to dedicated drivers—simulate gate voltage waveforms carefully when using the TC1413EUA this way.

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