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S40620 chip use for Automotive

Name: S40620 chip use for Automotive
Brand: Shenzhen Weixinye Electronics Co., Ltd.
SKU: 62316746469_1
Price: 9.60 USD
Availability: InStock
Rating: 4.8 (100 reviews)

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Automotive System Integration: Designed to handle critical automotive functions such as engine control, sensor data processing, and power management in vehicle electronics.
Multi-Functionality: The 14-pin configuration enables simultaneous input/output operations, supporting complex automotive applications like infotainment systems, safety features, and diagnostics.

Key features

1. Corrosion-Resistant Material Technology

With a corrosion-resistant metal lead frame and durable plastic package, ensure reliable performance in harsh automotive environments.

2. 14-Pin Multi-Function Design

With a 14-pin configuration, support complex automotive systems requiring multiple inputs/outputs, such as engine control or sensor integration.

3. Wide Operating Temperature Range

With a temperature tolerance of -40°C to 125°C, maintain stable operation in extreme automotive conditions.

4. Automotive-Grade Reliability

Designed for automotive applications, ensuring durability in high-vibration and high-stress environments.

5. Surface-Mount Efficiency

With a compact SMD package, enable space-saving integration in automotive electronics, reducing assembly complexity.

Product details

The S40620 automotive-grade integrated circuit (IC) is a surface-mount device (SMD) designed for high-reliability applications in automotive electronics. With a compact 14-pin configuration and robust material composition, it delivers efficient heat dissipation and precise signal handling, making it ideal for engine control units, safety systems, and sensor networks.

Technical specifications

Feature	Specification	Benefit
Surface-Mount Design	2x7 pin layout, SMD package	Enables high-density PCB assembly and compact form factors.
Material Composition	Silicon core, tin-silver-copper leads, plastic encapsulation	Ensures thermal stability and corrosion resistance.
Operating Temperature	-40°C to +125°C (AEC-Q100 compliant)	Reliable performance in extreme automotive environments.
Pin Configuration	14 pins (mixed-signal I/O)	Supports complex digital/analog functionality in limited space.

Customization guide

Adjustable parameters include:

Pin Layout: Modify I/O distribution for custom circuit board designs.
Material Upgrades: Opt for gold-plated leads for enhanced conductivity or high-temperature encapsulation for extreme thermal scenarios.
Certification Standards: Tailor compliance to regional automotive regulations (e.g., ISO 26262).

Get inspired

The S40620’s versatility makes it a cornerstone for automotive innovation. Use it to build real-time sensor interfaces for ADAS systems, optimize power distribution in EVs, or integrate fault-tolerant controls in critical safety modules.

Choose your model

Parameter	Base Model	Advanced Model	Pro Model
Operating Temp Range	-40°C to +125°C	-40°C to +150°C*	-55°C to +170°C*
Pin Count	14 (standard)	14 + programmable I/O	14 + dual-channel ADC
Package Size	7x5mm (industry standard)	7x5mm + heat slug	7x5mm + EMI shielding

Supplier's note

Technical Breakthroughs:
- Surface-Mount Design: Reduces PCB space by 30% compared to through-hole alternatives.
- AEC-Q100 Compliance: Guarantees automotive-grade reliability under vibration and thermal cycling.
- 14-Pin Flexibility: Enables integration of analog/digital functions without sacrificing density.
Version Selection Guide:
- Base Model: Ideal for standard automotive applications (e.g., lighting control) where cost efficiency is prioritized.
- Advanced Model: Recommended for systems requiring extended thermal tolerance (e.g., engine bay sensors) or programmable I/O.
- Pro Model: Best for safety-critical systems (e.g., airbag controllers) needing EMI shielding and high-precision ADCs.

With the Pro Model’s expanded temperature range (+30°C beyond industry norms), you can deploy the IC in under-the-hood environments while maintaining signal integrity. Pair its EMI shielding with automotive-grade materials to ensure flawless operation in electric vehicle inverters.

Frequently asked questions

Which automotive IC model is suitable for compact engine control units?
Is the S40620 IC AEC-Q100 certified for automotive reliability?
How to properly solder the S40620 SMD IC for automotive electronics?
What materials are used in the S40620 for automotive durability?
Can WEIXY customize the S40620 for custom automotive pin configurations?
What automotive applications use the S40620's 14-pin configuration?
Does the S40620 support mixed-signal systems in automotive ECUs?
Why choose WEIXY's S40620 over competitors for automotive projects?

Product comparison

Category	Usage Scenarios	Characteristics	Advantages	Disadvantages
Automotive ICs	Engine control, infotainment systems	Operating Temp: -40°C to 150°C (▲▲ vs Industry Standard -40°C to 125°C) (ISO 16750-4) Surface-Mount (SMD) package (▲ vs Through-Hole) (IEC 61760)	Survives extreme temperatures in vehicles Compact design for space-constrained systems	Higher cost than consumer-grade ICs Requires specialized testing for compliance
Consumer Electronics ICs	Smartphones, wearables	Operating Temp: 0°C to 70°C (IEC 60068-2-1) Low Power Consumption: <1W (IEC 62301)	Cost-effective Energy-efficient for portable devices	Not durable for harsh environments Limited temperature tolerance
Industrial Control ICs	Factory automation, robotics	Vibration Resistance: 50G (▲ vs Industry 30G) (MIL-STD-810G) High MTBF: 1,000,000+ hours (ISO 13849)	Robust in industrial settings Long lifespan	Larger form factor Higher power requirements
Medical Device ICs	Diagnostic tools, implants	Biocompatibility: ISO 10993 Certified (▲▲ vs Non-Medical Grades) EMI Shielding: <30 dB (IEC 61000-4-3)	Safe for patient contact Reduces electromagnetic interference	Strict regulatory hurdles Higher production costs
Telecommunications ICs	5G base stations, routers	Data Rate: 10 Gbps (▲▲▲ vs Industry 1 Gbps) (IEEE 802.3) Latency: <1ms (ETSI EN 301 547)	Ultra-fast data processing Low latency for real-time applications	Requires advanced cooling systems Complex integration
Aerospace ICs	Avionics, satellite systems	Radiation Tolerance: 100 krad (▲▲▲ vs Automotive 50 krad) (NASA-STD-6001E) Hermetic Sealing: 1E-9 mbar·L/s (ISO 16287)	Reliable in space environments Resists radiation and vacuum	Extremely high cost Specialized manufacturing processes

S40620 chip use for Automotive

S40620 chip use for Automotive

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Key features

1. Corrosion-Resistant Material Technology

2. 14-Pin Multi-Function Design

3. Wide Operating Temperature Range

4. Automotive-Grade Reliability

5. Surface-Mount Efficiency

Product details

Technical specifications

Customization guide

Get inspired

Choose your model

Supplier's note

Frequently asked questions

Which automotive IC model is suitable for compact engine control units?

Is the S40620 IC AEC-Q100 certified for automotive reliability?

How to properly solder the S40620 SMD IC for automotive electronics?

What materials are used in the S40620 for automotive durability?

Can WEIXY customize the S40620 for custom automotive pin configurations?

What automotive applications use the S40620's 14-pin configuration?

Does the S40620 support mixed-signal systems in automotive ECUs?

Why choose WEIXY's S40620 over competitors for automotive projects?

Product comparison

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