Mitsec
01 · THE THESIS

We do not assemble.
We invent from scratch.

A collective of mechanical, electrical, vision and software engineers who design industrial automation from a blank page — translating intent into machines that ship, scale, and stay alive on the factory floor.

02 · AT A GLANCE

Numbers we stand behind.

FIG. 01
0
Years Engineering
FIG. 02
0
Systems Delivered
FIG. 03
0
In-house Specialists
FIG. 04
0
Industries Served
03 · ORIGIN

Our Story

Two decades of engineers who think across disciplines — vision specialists sketching next to mechanical leads, controls engineers prototyping with software architects.

To build machines that outlast their operators, every actuator and every line of logic must be conceived for its precise environment. We author the physics before we write the code.

We started with a simple belief: the best automation isn't bought — it's designed. Every factory has a problem no catalogue machine can solve. That's where we begin.

Today our machines run in semiconductor fabs, medical device plants, EV battery lines and aerospace shops — quietly, reliably, and exactly the way our customers asked for.

04 · DOCTRINE

Principles that shape every machine.

Not slogans — these are the working rules our engineers actually use when a customer says "we have a problem".

P.01DOCTRINE

Intellectual Rigor

Every system begins with first-principles thinking. Physics, math and data inform each decision before a bracket is cut.

P.02DOCTRINE

Originality by Default

We don't resell off-the-shelf solutions. Each machine is conceived, modeled and validated in-house, from blank canvas to working line.

P.03DOCTRINE

Customer-Embedded

Engineers spend time on your floor — observing, measuring, listening — so we solve the real bottleneck, not the assumed one.

P.04DOCTRINE

Built to Outlast

Industrial-grade tolerances, redundant safety circuits and serviceable architecture keep machines running a decade after install.

05 · METHOD

How a machine is born.

4 phases · ~12 weeks typical
STEP 01
01

Discover

Workshops, line-walks and data captures translate vague pain into a precise problem statement.

STEP 02
02

Conceive

Multi-disciplinary brainstorms produce 3–5 candidate architectures, scored on cost, cycle and risk.

STEP 03
03

Engineer

Mechanical, electrical, vision and software teams co-design in parallel using a shared digital twin.

STEP 04
04

Build & Validate

In-house fabrication, FAT and SAT — with your team in the loop — ensure zero surprises at go-live.

06 · DISCIPLINES

One team. Many disciplines.

When mechanical, electrical, vision and software live in the same room, the gaps that usually slow projects down simply disappear.

D.01

Mechanical Design

D.02

Vision & AI

D.03

Controls & PLC

D.04

Software & HMI

D.05

Precision Motion

D.06

Functional Safety

07 · TIMELINE

A continuous line of work.

  1. 2010

    Founded as a small engineering consultancy with a refusal to integrate someone else's compromise.

  2. 2013

    First fully in-house designed inspection system shipped to a tier-1 semiconductor fab.

  3. 2017

    Cross-disciplinary R&D lab opens. Mechanical, vision, controls and software now share one room.

  4. 2020

    Vision + AI division formalized — defect detection models trained on millions of real factory frames.

  5. 2024

    500th system installed. Active in 15+ countries across automotive, aerospace, medical and EV.

08 · DEPLOYMENTS

Where our work lives.

15+ countries
Semiconductor/Medical Devices/EV Batteries/Aerospace/Automotive/Electronics/Pharma/Precision Optics
09 · END OF DOCUMENT

Have a problem no catalogue machine can solve?

Bring us the constraint, the cycle time, the impossible tolerance. We'll bring the engineers.

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MANUFACTURING INNOVATIVE TECHNOLOGIES PTE LTD

Quick Links

Our Office

10 Admiralty Street #05-87 North Link Building Singapore 757695

+65-64838361 FAX: +65-64838351

sales@mitec.sg

Business Hours

Monday - Friday

9.00 am - 6.00 pm