CSD96370Q5M

Texas Instruments

IC HALF BRIDGE DRIVER 40A 22LSON

9071 Pcs New Original In Stock

Half Bridge Driver Synchronous Buck Converters Power MOSFET 22-LSON-CLIP (6x5)

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5.0 / 5.0 - (154 Ratings)

CSD96370Q5M

Name: Texas Instruments CSD96370Q5M
Brand: Texas Instruments
SKU: CSD96370Q5M
Price: 97.1940 USD
Availability: InStock
Rating: 5.0 (154 reviews)

Product Overview

1265381

DiGi Electronics Part Number

CSD96370Q5M-DG

Manufacturer

Texas Instruments

Manufacturer Product Number CSD96370Q5M

Description

IC HALF BRIDGE DRIVER 40A 22LSON

Inventory

9071 Pcs New Original In Stock

Detailed Description Half Bridge Driver Synchronous Buck Converters Power MOSFET 22-LSON-CLIP (6x5)

See all Full Half-Bridge (H Bridge) Drivers

Datasheet CSD96370Q5M 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)

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1 97.1940 97.1940

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CSD96370Q5M Technical Specifications

Datasheet & Documents

Datasheets

Download CSD96370Q5M Product Specification (PDF)

Manufacturer Product Page

CSD96370Q5M Specifications

HTML Datasheet

CSD96370Q5M-DG

Environmental & Export Classification

RoHS Status ROHS3 Compliant

Moisture Sensitivity Level (MSL) 2 (1 Year)

REACH Status REACH Unaffected

ECCN EAR99

HTSUS 8542.39.0001

Additional Information

Other Names

296-28235-6

TEXTISCSD96370Q5M

2156-CSD96370Q5M

-296-28235-1-DG

296-28235-1

-CSD96370Q5M-NDR

296-28235-2

Standard Package

2,500

Reviews

5.0/5.0-(Show up to 5 Ratings)

숨***은

de desembre 02, 2025

5.0

품질이 뛰어나고, 직원들도 매우 친절해서 기분 좋게 구매했어요.

산***소리

de desembre 02, 2025

5.0

제품의 내구성과 포장 모두 기대 이상입니다.

Natur***bhaber

de desembre 02, 2025

5.0

Mit den günstigen Preisen bei DiGi Electronics bin ich immer zufrieden. Der Service nach dem Kauf ist top.

Leb***Lust

de desembre 02, 2025

5.0

Ich schätze den zuverlässigen Versandservice sehr, meine Bestellung kam pünktlich an.

Whispe***gWinds

de desembre 02, 2025

5.0

Their dedication to reducing waste through eco-friendly packaging is inspiring.

Sil***Echo

de desembre 02, 2025

5.0

I highly recommend their cost-effective solutions for any electronic testing needs.

Sunn***deUp

de desembre 02, 2025

5.0

Their thorough approach to customer care and packaging reassures me of their reliability.

Star***kies

de desembre 02, 2025

5.0

I was impressed by how quickly my orders arrived, often earlier than the estimated delivery time.

Silv***ining

de desembre 02, 2025

5.0

I found their website very easy to explore, and the prices are quite attractive.

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Frequently Asked Questions (FAQ)

Can the CSD96370Q5M be safely used in a 12V input, 1.2V output synchronous buck converter powering a high-current FPGA, and what are the key thermal and layout risks to avoid during design-in?

Yes, the CSD96370Q5M is well-suited for 12V-to-1.2V FPGA power applications due to its 3.3V–13.2V load voltage range and 40A continuous output capability. However, thermal performance is highly dependent on PCB layout: ensure a solid ground plane, thermal vias under the exposed pad, and minimal high-current loop area between input caps, driver, and MOSFETs. Poor layout increases switching losses and can trigger thermal shutdown. Also, verify bootstrap capacitor voltage rating—use a 16V-rated ceramic cap to handle voltage spikes during high-side turn-on. Without proper thermal design, junction temperatures may exceed 150°C under sustained load, risking long-term reliability.

Is the CSD96370Q5M a drop-in replacement for the Infineon BTS7004-1EPA in a 5V, 30A server power rail, and what design changes are required?

The CSD96370Q5M is not a direct drop-in for the Infineon BTS7004-1EPA due to differences in pinout, package (22-LSON-CLIP vs. PG-TO-252), and control interface. While both support similar current levels, the CSD96370Q5M requires a PWM input and integrated bootstrap circuit, whereas the BTS7004-1EPA is a smart high-side switch with diagnostic feedback. To replace it, you must redesign the gate drive stage, remove external high-side drive components, and ensure your controller provides a compatible PWM signal. Additionally, the CSD96370Q5M’s lower Rds(on) NexFET™ technology improves efficiency but demands tighter dead-time control to prevent shoot-through—verify timing margins in your PWM controller firmware.

What are the critical failure modes of the CSD96370Q5M in automotive 12V battery systems with load dump transients, and how can they be mitigated?

In automotive environments, the CSD96370Q5M is vulnerable to voltage transients exceeding its 13.2V maximum load voltage during load dump events (which can reach 40V). Although it includes UVLO and shoot-through protection, sustained overvoltage can damage internal circuitry. To mitigate this, use a TVS diode (e.g., SMAJ15A) at the input and an LC filter to clamp transients below 13V. Additionally, ensure the bootstrap capacitor and diode are rated for transient spikes. Operating near the -40°C lower limit also reduces gate drive strength—verify switching performance at cold start using a double-pulse test. Without transient protection, repeated stress can lead to latent failures or immediate gate oxide breakdown.

How does the CSD96370Q5M compare to the ON Semiconductor NCP51530 in terms of efficiency and EMI performance for a 5V, 25A point-of-load converter in a noise-sensitive medical device?

The CSD96370Q5M offers higher integration (built-in bootstrap, no external gate drivers) and better thermal performance in compact designs compared to the NCP51530, but the NCP51530 provides adjustable dead time and stronger sink/source current (2A/4A vs. ~1.5A typical in CSD96370Q5M), which can reduce switching losses and EMI in sensitive applications. For medical devices, the CSD96370Q5M’s faster switching may increase high-frequency noise if not carefully laid out—use snubbers and minimize loop inductance. The NCP51530 allows finer control over dv/dt, easing EMI compliance. Choose the CSD96370Q5M for space-constrained, high-reliability designs with robust layout; opt for the NCP51530 when EMI tuning is critical and board area permits external components.

What long-term reliability concerns should I evaluate when using the CSD96370Q5M in an industrial motor drive operating at 85°C ambient with frequent start-stop cycles?

In high-temperature, cyclical applications like industrial motor drives, the CSD96370Q5M’s reliability hinges on thermal cycling stress and gate oxide integrity. Although rated for -40°C to 150°C junction temperature, repeated thermal swings from start-stop cycles can fatigue solder joints and the clip-bonded leadframe in the 22-LSON-CLIP package. Mitigate this by using a thermally conductive PCB (e.g., 2-layer with thick copper) and avoiding sharp thermal gradients. Also, ensure the bootstrap refresh rate is sufficient during low-duty-cycle operation to prevent high-side undervoltage lockout (UVLO) faults. Monitor for increased Rds(on) over time—a sign of bond wire or clip degradation. For mission-critical systems, consider derating output current by 20% at 85°C ambient to extend mean time between failures (MTBF).

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