Golden Rules For Electronic Circuit Design

- All components must conform to the specified temperature range. For resistors, de-rating of power rating at peak temperature must be considered. For capacitors de-rating of capacitance, leakage and increase in ESR at peak temperature may be important. For other components such as diodes and transistors, parameters such as recovery times and current gain vary with temperature and must be considered at extreme temperatures. In summary, no design calculation must be left to chance (as is often the case with designs put together in haste), temperature effect calculations are indispensable to success.

- Devices connected to interfaces must be well protected from ESD (Electrostatic Discharge) damage. ESD damage may occur at the time of prototype construction, during manufacturing or during use. Contrary to common misconception ESD at the time of production may not render a device defunct, but may cause progressive deterioration which may result in field failure. Therefore built in ESD protectors are necessary and Mansi Engineering ensures that all its designs incorporate them where necessary. IEC 61000-4-2 is a widely accepted ESD test conformance standard. ESD protectors include MOVs, TVS diodes, ESD Protection Clamping diodes and the newly introduced Polymer based devices. Selection of the right type of protector depends on capacitance that can be tolerated without signal deterioration and other factors such as tolerable leakage current, cost, pin outs and board area required. In addition, ESD protectors must be placed as close as possible to the signal entry location and as far away as possible from the device being protected so that the resulting large trace impedance attenuates the high frequency ESD energy as it travels towards the protected device. Zener or TVS diodes must be placed between power supply lines and ground to absorb ESD energy traveling via other protector diodes towards power supply line, while the device is powered off.

- Terminals connecting to inductive sources must be protected from switching overshoots or undershoots using clamping diodes or other devices. Long traces that carry heavy currents may act as sufficiently large inductors to cause unwanted switching transients and therefore protection is necessary.

- Signal lines must be well protected from radiated and conducted EMI. Ferrite beads and capacitor filters are effective means to block EMI.

- Within limits of budget, every design must incorporate sufficient protections from wrong connections, such as battery polarity reversal and accidental grounding of an output line. Large resistors are recommended to be used in series with microprocessor outputs driving drivers that drive large inductive loads. This ensures that the processor is well protected from switching transients.

- Functioning of the system at power up must be analyzed. For example it is important to deploy pull-up resistors on microprocessor output signals that need to be high on power up. Similarly functioning of relevant parts when powering down deliberately or accidentally, must be analyzed. For example, when processor state saving is involved during power down, a power down detect functionality might prove indispensable.

- For EMC, it is recommended to use inductors (preferably shielded) to slow down sharp current rise and fall times. Sharp current transients cause a sharp varying and traveling electromagnetic field.

- It is important to assign test points to relevant nets. Especially all ground and power nets, bias or threshold points and other serviceable signals must have a test point, which add convenience during testing and troubleshooting. Test points may be free vias with suitable drill size to accept and retain stainless steel needles or header leads.

- Having an on board power on LED indicator has its own importance. It warns the engineer and people around that the circuit is live and prevents accidents."

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Article by

Department of ECE

Vignana Bharathi Institute of Technology - VBIT

Vignana Bharathi Institute of Technology

Vignana Bharathi Institute of Technology

About VBIT : 

VBIT is the place where opportunities are provided for students to realize their ambitions, where new ideas are born, where innovative projects materialize, and where students excel in learning.

“Outstanding” is what our students rate our efforts in nurturing versatile leadership. In VBIT, our faculty members go beyond teaching, they redefine excellence.

Founded in 2004 by highly qualified people, Vignana Bharathi Institute of Technology emerged as a hub for engineering excellence. At VBIT, students will discover engineering in a different light. Students will experience an engineering education that is on par with the industry requirement.

The sprawling 10.2 acre campus has state-of-the-art teaching facilities to train students in emerging technologies. The college is located about 18 kms from Uppal on the Warangal Highway.

VBIT has 60 state-of-the-art laboratories on the campus. The collection in the library, housed in a spacious 2100 sq.m block include more than 23401 volumes covering different engineering streams. As many as 130 (hard copy) and 1650 (soft copy) National and International journals are provided for the students. The institute has   imported Unified Digital Library from Tidal Data Technology Ltd., USA that consists of 5000+ Video Lectures from MIT, Stanford, IIT and IISc. Apart from that, the collection of various CD published by SONET. Students and faculty have instant access to Indian and foreign journals in their branches of specialization through Internet.

The Institute has established its exclusive research center in the year 2010 with a view to promoting research activity in all the departments and spreading research culture among its staff members and students. Jawaharlal Nehru Technological University (JNTU) recognized VBIT as a Research Center in the year 2011. There are two major research projects (~ 65 lakhs) sponsored by Indian Space Research Organization (ISRO) which are getting implemented in the research center. Three fulltime Junior Research Fellows (JRF) are pursuing their Ph.D. work under these projects. Recognizing the research potential of the institute, ISRO has installed a Mini Boundary Layer Mast (MBLM) in the college premises under its PRWONAM programme at a cost of ~ 25 lakhs. This has facilitated the staff members and students to carry out standard research. Some of the students of B. Tech. and M. Tech. courses have taken up projects based on MBLM data (hardware and software).

Under the umbrella of this centralized R & D center, Centers of Excellence have been created in each department. These centers conduct trainings and special lectures by experts which help the students and staff members to update their knowledge and skills. These centers have developed many products like Wind mill unit (ECE/EEE/ME), Automatic Sensor Tap (ECE), Mining MBLM (CSE/IT) and SOLAR TRACKING SYSTEM –SOLAR POWER CONTROLLED CHOPPER DRIVE (EEE). The R & D center of VBIT has collaborated with National Atmospheric Research Laboratory (NARL), Gadanki to carry out a joint study on ionospheric delay of satellite signals measured by GPS receiver. The ECE Department of VBIT will also be a part of this study. A dual frequency receiver which operates in L1 and L2 bands (1.2 to 1.5 GHz frequency) with GPS antenna designed to operate at the required frequencies have been installed by NARL, Gadanki at VBIT for this purpose. The study will provide inputs applicability for GPS-Aided Geo Augmented Navigation (GAGAN) and satellite based navigation in India.

The R & D center and ECE department of VBIT jointly conducted a national symposium “Current trends in Atmospheric Research including Communication And Navigation aspects” (CARCAN-2012) during 21-22 December, 2012 in the college. It was supported by DST, MoES, ISRO and CSIR, Govt. of India. The conference was attended by many stalwarts in the field. Participants from different corners of the country attended CARCAN-2012 and made it a grand success.

Training, Placement, Career Guidance and Entrepreneurship Development Cell, commonly known as Training and Placement Cell caters to the development of students skills and ensure relations with industry for campus recruitment. Our unique efforts to train our students for various competitive examinations like GRE, TOEFL, and GATE are highly appreciated by all the stakeholders.

At VBIT, emphasis on student’s active participation in co-curricular and extra-curricular activities like participation in activities of professional societies, sports and cultural events is equally given. With the sole motto of nurturing the leadership, we have established “Students Activity Centre” (SAC) which is an apex body of 16 forums. This systematic approach to encourage students’ activities and explore their talent brought many laureates at home. IEEE Student Branch of VBIT bagged Outstanding Student Branch Award during 09-10 in Hyderabad region and has been selected for the prestigious Darrel Chong Student Activity Award (Gold Prize) for 2011.This is an international award with a global recognition, which is awarded annually to IEEE student branches that constantly encourage and motivate students to continue, innovate and implement meaningful ideas.

The institute situated hardly a kilometer from the main road (NH163), transport is absolutely hassle free. The college operates 23 buses on its own, while the APSRTC operates one bus service to the college from Ghatkesar.

The cafeteria of VBIT is where students relax, have healthy food and refreshments along with lot of academic discussions.  The facilities for sports and games at VBIT are laudable. Volleyball and Cricket teams of our Institute have won many Champion trophies at University and State levels. Since 2004, almost 75 students are selected in University teams for Inter University and Inter State tournaments.

Vision

To emerge as a premier institution for technical education in the country through academic excellence and to be recognized as a Center for Excellence in Research & Development, catering to the needs of our country.

Mission

To establish a strong institution by consistently maintaining state of the art infrastructure and building a cohesive world class team by providing need based technical education and promoting Research and Development through enhanced Industry Interaction.

Quality Policy

We aspire to continuously improve our performance through systematic monitoring and upgrading all aspects of student-centric Teaching – Learning process.

Goals

Short term goals

• To improve the performance of students in University Examinations.
• To enhance the participation of students and faculty members in National and International seminars and conferences.
• To arrange special coaching for rural students to improve their communication skills and to design various short term courses to promote the concept of “learning beyond the syllabus”.
• To strengthen and enhance Industry-Institute interaction.
• To nurture leadership qualities among students through encouraging them to participate in the activities of professional societies at College, State, National and International levels.

Long term goals

• To promote Research and Development activities with special emphasis on the “Emerging Technologies” and “Interdisciplinary areas”.
• To endeavor and develop the college into an “Autonomous Institution”.
• To promote symbiosis with the neighboring industries and chalk out programmes for the mutual benefit.
• To promote various technical and skill based schemes in neighboring villages to uplift the underprivileged section of the society and through these activities inculcate a strong social commitment in budding Engineers.

Vignana Bharathi Institute of Technology