Texas Instruments (TI) invites applications for its Digital IC Design Engineering Internship 2025 in Bengaluru. This Texas Instruments Internship offers engineering students hands-on experience in semiconductor innovation while working on cutting-edge projects across automotive, medical, IoT, and power management domains.
Texas Instruments Internship 2025 Overview
| Company: Texas Instruments (TI) | |
| Role: Digital IC Design Engineering Intern | Experience Level: Freshers |
| Location: Bengaluru, Karnataka | Eligible Batch: 2025, 2026 |
| Job Type: Internship | Salary/Stipend: ₹3 – ₹5 LPA (Expected) |
Digital IC Design Engineering Job Description:
As a Digital IC Design Engineering Intern at TI, you’ll contribute to creating next-generation semiconductor solutions used in automotive systems, medical devices, and smart technologies worldwide.
Key Responsibilities in Digital IC Design Internship:
- Collaborate with cross-functional teams to develop chip architecture specifications
- Perform technical analysis for performance optimization & cost-effective IC designs
- Participate in design reviews and create technical documentation
- Coordinate with layout teams to ensure high-quality silicon implementation
- Conduct prototype testing and develop validation protocols
- Create behavioral models for complex integrated circuits
Required Skills & Qualifications:
Digital IC Design Skills Required for TI Summer Internship:
- Strong understanding of analog/digital circuit fundamentals
- Proficiency in hardware description languages (VHDL/Verilog)
- Basic knowledge of semiconductor physics
- Problem-solving skills for technical trade-off analysis
- Collaborative mindset for team projects
- Time management for deadline-driven R&D environments
JOBINSIDER PREMIUM
Be the first to Apply, be the first to get Hired.
Get early access to Jobs.
For Free Courses to Upskill: Click Here
Eligibility Criteria for Design Engineer Internship:
Education: Pursuing B.Tech/B.E. in Electrical Engineering, Electronics & Communication, Computer Engineering or related fields.
Fresher graduates from the 2025 and 2026 batches are eligible to apply.
Internship Location: Bangalore, Karnataka, India
Perks and Benefits of Texas Instruments Job:
- Hands-on mentorship from TI Fellows.
- Access to advanced EDA tools & 300mm wafer lab.
- Professional development workshops.
- Inclusive workplace with diversity initiatives.
Career Growth Opportunities
- Potential for conversion to Senior Design Engineer roles based on performance and requirements.
- Specialization paths in Analog/RF Design, Automotive Electronics, or Power Management ICs.
Salary/Stipend in Digital IC Design Internship at Texas Instruments India:
It’s a paid internship with an estimated Digital IC Design Engineering Intern Salary/Stipend at Texas Instruments (TI) is around INR 3 to 5 Lakhs Per Annum (LPA).
How to Apply for the TI Internship in Bangalore:
To apply or for more information regarding semiconductor internships for students, visit the Texas Instruments career page using the following link.
Application Deadline: Rolling basis (apply early).
Explore Similar Opportunities:
| Company: Texas Instruments (TI) | Job Type: Internship |
| Location: Bangalore | Role Focus: Design Engineer |
| B.Tech | Computer Engineering, IT |
| Electrical Engineering | Electronics & Communication |
For the Latest Job Alerts, Follow Jobinsider on
Frequently Asked Questions (FAQ)
(Q1) Can 2024 graduates apply for this internship?
(A1) No – this position is exclusively for students graduating in 2025 and 2026.
(Q2) What software tools will interns use?
(A2) Interns work with Cadence Virtuoso, MATLAB, and TI’s proprietary design platforms.
What exactly does Texas Instruments do?
A global semiconductor leader since 1930, Texas Instruments (TI) designs chips that power everything from spacecraft to smartwatches. In India, TI’s Bengaluru R&D center drives innovation in analog and embedded processing solutions, employing 5,000+ engineers. The company focuses on making electronics more affordable through sustainable semiconductor innovation.
