Monthly Archives: January 2012


Reviewing the iCA05 Graphic LCD development kit from iCircuit Technologies

The Graphical LCD (GLCD) displays provide more flexibility in presenting data, as compared to standard character-based LCDs. Owing to a significant drop in price lately, GLCDs have become more popular these days in the hackers’ and DIY worlds. If you are planning on doing an embedded microcontroller project including a graphical LCD display, you might be interested in this PIC-based GLCD development kit from iCircuit Technologies. This decently priced development kit will help you to get started quickly with your project. Here’s a brief review of the kit.

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Digilent announces the 8th annual US regional design contest

Digilent has just announced the 8th annual US regional Digilent Design Contest, to be held on May 6-7, 2012 in conjunction with the IEEE EIT conference in Indianapolis. Digilent Design Contests are engineering contests open to all students enrolled in any educational institution in that region. Students are challenged to create an original project using Digilent boards, whether FPGA boards featuring state-of-the-art Xilinx FPGAs, microcontroller boards featuring Microchip microcontrollers, or chipKIT boards based on the Arduino development environment. Contest enrollment begins on January 25th. Project presentations and judging will take place on May 6th, with the winners to be announced

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A brief overview of Allegro ACS712 current sensor (Part 2)

In the first part of this discussion, the features of ACS712 device were briefly discussed. Now we will use that theory to implement the ACS712 sensor to make a simple DC current meter. The analog output voltage from the sensor is measured through an ADC channel of the PIC16F1847 microcontroller. A voltage to current conversion equation will be derived and implemented in the firmware of the PIC microcontroller and the actual load current will be displayed on a character LCD.

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A brief overview of Allegro ACS712 current sensor (Part 1)

Sensing and controlling current flow is a fundamental requirement in a wide variety of applications including, over-current protection circuits, battery chargers, switching mode power supplies, digital watt meters, programmable current sources, etc. One of the simplest techniques of sensing current is to place a small value resistance (also known as Shunt resistor) in between the load and the ground and measure the voltage drop across it, which in fact, is proportional to the current flowing through it. Whereas this technique is easy and straightforward to implement, it may not be very precise because the value of the shunt resistor slightly

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Building a digital light meter with a calibrated LDR

Measurement of light intensity is a prime necessity in several occasions.  The diversity of such needs make their way to various branches of physics and engineering as well as in media. For instance, in engineering, such kinds of measurements are needed to design optimum lighting conditions of a room. In photography, light intensity measurements ensure good quality pictures by determining the right exposure. Wiring a phototransistor or a light-dependent-resistor (LDR) with an analogue LED voltmeter chip like the LM3914 or even to a microcontroller and displaying the ADC values is a pretty simple technique of measuring light intensity. The bad

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