Friday, January 25, 2008

Charge Pump - To Measure Distance

There are several projects where there is a need to measure distances of any object. Sensors are being used frequently for such type of applications but 3D optical measurement is still quite a difficult task for sensors.

The ability to tell the difference how far an object is from the sensor is very useful for imaging applications, and low cost components like sensors are mainly considered for this purpose. Now charge pump can play a significant role in getting all kind of information related to distance from the sensors.
There are two possible methods which can be used to take the information:

By processing a large amount of data quickly.

By modulated light source synchronized with the sensor.

Now, let’s take a brief idea of measuring a distance of any object with the help of modulated light source. Here the charge pump is a Photonic Charge Pump Mixer, a CMOS type, comprises two p-channel MOS transistors working in counter-phase clocking. A transmitter is also used to generate the light pulses which are focused on an imager. The light travel path causes the phase delay with respect to the source which at last is measured. The distance measured is proportional to the phase shift divided by the modulation frequency.

The bias condition makes the transistors to operate between inversion and accumulation conditions at each gate change. Now the minority charge carriers combines with the majority ones which are attracted from the substrate and convert into charge packets that flows to the source terminal. The important point of this device is that the transistor bias conditions depend on the light intensity and the conditions change when the light impinges on the part of the device. There is an integrator behind the charge pump on which the charge gets accumulated after the bias conditions get changed.

The two integrators are connected to two PMOS one at a left channel and the other at the right channel that work independently and the accumulated charge integrates at different time slots. This when synchronized with the modulated light source, the difference of the two outputs (VOR - VOL) is a measure of the light phase shifting and the distance of the backscattering object.


Author: Gary Jones (Component Engr.)
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MICROCONTROLLER (For some control application)

Microcontroller is ‘single chip computer’ If you try designing a computer systems (For some control application) using a traditional microprocessor like 8086, you can abandon the project in frustration, trouble is that the microprocessor is just one component of the system and you need to add like RAM, ROM, timers, counters and interrupt circuitry and I/O ports to make it complete. This is complex job and requires sophisticated knowledge of processors internals .It’s here microcontroller comes for our rescue.

Microcontrollers with flash memory, which is non volatile memory that can be erased using electrical signals, the basic idea is to write the programs (mostly in assembly language or ‘C’) on PC and convert into machine language code, belonging to the target microcontrollers instruction set. Once this is done, the machine code can be transferred to the non volatile memory of the microcontroller via simple circuit, connected to the serial or parallel port .This process is called the programming or ‘burning the micro’.

One most expensive device which is known as ‘Piggy Back’ version which has no ROM memory internally, instead pin outs on the top of the microcontroller form a socket in which EPROM program memory device can be installed.

APPLICATIONS:-Microcontrollers are frequently used in automatically controlled products and devices as

1 LCD control
2 Motor controls
3 Remote controls
4 Car Audios
5 Disk players
6 Camera /cane coder
7 Video Game console
8 Washing machine
9 Vacuum cleaner
10 Ventilation systems
11 Microbots
12 Fire and security machines

Author: Mark Thompson(Component Engr.)
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Thursday, January 10, 2008

DVI (Digital Video Interface Connectors)

DVI was developed by DDWG (Digital Display Working Group) to improve analog and digital image quality in PC applications. There are three types of DVI connectors:

  1. DVI-A for Analog signals.
  2. DVI-D for Digital signals
  3. DVI-I (Integrated) for both analog and digital signals.
The length of the cable is flexible from 5 to 25 meters. It handles bandwidth about 160MHz.This provides connection between computer and its display devices. This is used with LCD monitor not with old VGA cable. DVI gives better quality compared to the VGA.

Therefore, before buying an LCD, make sure that graphics card has DVI connector and same time also make sure that LCD has it too. Most of the LCD today has both VGA and DVI connector but there may be some which has VGA connector, to save cost.

DVI is digital solution and need no conversion, also faulty VGA cables would result in degradation of quality. Cost is low and high speed way to interconnect peripheral devices.

Applications:

  1. Computer Monitors
  2. Set Top Boxes
  3. A/V Receivers
  4. HDTV
  5. Computer Video Cards
  6. High-End DVD players

Author: Mark Thompson(Component Engr.)
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