Diploma in Advanced Instrument Technology is a diploma course that provides students with knowledge and skills related to the field of instrumentation technology. This course is designed to prepare students for jobs in the field of process control, automation, and instrumentation.
Diploma in Instrument Technology is a Diploma level Instrumentation Engineering course. Instrumentation is the art and science of measurement and control of process variables within a production or manufacturing area. Instrumentation Technology is the integration of different branches of sciences which are put together to achieve required functional goal, so the students are made to know the basics of the relevant engineering branches, so as to have a clear understanding about the process, equipment and controls as the modern industries use electronic controls which are more efficient, effective and accurate and the old magnetic and electrical control have all become obsolete.
Stream | Engineering |
Course | Diploma In Advance Instrument Technology |
Full Name | Diploma In Advance Instrument Technology |
Eligibility | 10+2 |
Duration | 1 Year |
Fees | 15000 |
Type | Diploma |
Mode | Year |
Students who have completed their 10th standard or equivalent from a recognized board with science and mathematics as compulsory subjects are eligible for admission to this course.
Candidates typically need to have completed a high school diploma or equivalent qualification from a recognized educational board or institution. A background in science or mathematics may be preferred, as it can be relevant to understanding the technical concepts covered in the program.
Some institutions may have minimum grade requirements for certain subjects or overall academic performance. Applicants may need to demonstrate proficiency in relevant subjects to be eligible for admission to the program.
The duration of the course is typically 3 years.
Admission to the course is based on merit or entrance exam scores.
In some cases, institutions may require applicants to take entrance exams to assess their aptitude for the program. These exams may cover topics related to mathematics, physics, and technical skills relevant to instrument technology.
While not always mandatory, some institutions may prefer applicants with prior work experience or training in a related field. Previous experience in instrumentation, electronics, or engineering could be advantageous.
Depending on the language of instruction, applicants may need to demonstrate proficiency in the language of instruction, usually English. This could be through standardized language tests such as TOEFL or IELTS for non-native English speakers.
Institutions may have additional requirements such as letters of recommendation, personal statements, or interviews as part of the application process. These requirements help assess applicants' motivation, skills, and suitability for the program.
Some institutes may conduct an entrance exam for admission to the course.
Students can apply for the course by filling out an application form available on the institute's website or in person.
Once you've identified the program you're interested in, visit the institution's website or contact the admissions office to obtain information about the application process. Follow the instructions provided to complete and submit your application.
Fill out the application form accurately and completely. This may include providing personal information, educational background, work experience (if applicable), and any other required details.
Prepare and submit official transcripts from your high school or any post-secondary institutions you have attended. You may also need to submit additional documentation, such as letters of recommendation, a resume, or a personal statement.
If the program is conducted in a language other than your native language, demonstrate proficiency in the language of instruction, usually English. This could be through standardized language tests such as TOEFL or IELTS if necessary.
The application process typically involves submitting the application form along with the required documents and paying the application fee.
The fee for the course varies from institute to institute. It can range from INR 30,000 to INR 1,50,000.
The syllabus for the course includes topics such as measurement and control systems, sensors and transducers, digital electronics, process control, industrial instrumentation, and communication protocols.
Basic Electronics and Instrumentation:
Fundamentals of electronics and electrical circuits
Electronic components and devices
Analog and digital circuits
Sensors and transducers
Signal conditioning and amplification
Instrumentation Systems:
Introduction to measurement and control systems
Types of instrumentation systems (analog and digital)
Principles of process control
Distributed control systems (DCS)
Programmable logic controllers (PLCs)
Measurement Techniques:
Principles of measurement
Units and standards of measurement
Calibration techniques
Measurement errors and uncertainty
Data acquisition and logging
Industrial Instrumentation:
Pressure measurement and control
Temperature measurement and control
Level measurement and control
Flow measurement and control
Analytical instrumentation (pH, conductivity, etc.)
Control Systems:
Feedback control systems
PID controllers and tuning methods
Control valve operation and characteristics
Advanced control strategies (cascade control, feedforward control, etc.)
Supervisory control and data acquisition (SCADA)
After completing the course, students can find employment in industries such as chemical, petrochemical, power, and manufacturing. The starting salary for a diploma holder in Advanced Instrument Technology in India can range from INR 20,000 to INR 35,000 per month.
Entry-level positions may start around $40,000 to $50,000 per year, while experienced professionals can earn upwards of $80,000 to $100,000 or more annually.
The salary for instrumentation engineers can vary significantly based on factors such as experience, industry, location, and employer. Entry-level positions may start around $50,000 to $60,000 per year, while experienced engineers can earn six-figure salaries.
Automation engineers typically command higher salaries compared to entry-level positions, with salaries ranging from $60,000 to $80,000 or more for experienced professionals.
Graduates of the course can work as instrument technicians, process control engineers, automation engineers, and maintenance engineers. They can also pursue higher education in the field of instrumentation technology or related fields such as control systems engineering.
Control systems technicians/engineers are involved in designing, implementing, and troubleshooting control systems used to monitor and regulate industrial processes. They work with PLCs, DCSs, SCADA systems, and other automation technologies.
Instrumentation engineers design, develop, and optimize instrumentation systems and solutions for various industries. They may work on projects involving sensor technologies, data acquisition systems, and process control optimization.
Automation engineers are responsible for designing, implementing, and maintaining automated systems and processes using advanced technologies such as robotics, artificial intelligence (AI), and machine learning. They play a key role in optimizing efficiency and productivity in industrial environments.
Process control engineers focus on optimizing industrial processes to ensure efficient operation, quality control, and safety. They may work on projects involving process optimization, control system upgrades, and troubleshooting.