Make Kazus.info Your Home Page  |  Add to favorites Guest (Login) Russian version  |  Datasheets  
KAZUS.INFO - Datasheets, Electronic circuits, Repair manuals, Electronic compoinents & Forums.    
Electronic news
Read all news >>
Electronic circuits
Games/Entertainments Antique Audio Auto Auto Audio Camcorders Cellular communication Computer Data processing Digital/Microcontrollers Domestic Filters High Voltage Interfaces Light/Laser/IR Medicine Meters Miscellaneous Motor controls Music Networks Oscillators PDA interface and schematic Power Suply Preamplifiers Radio RC Modeling Repair Security Solar energy Switching Telephone Transmitters TV/Monitors Video Schematics archive Electronic circuits
Article in electronics
Article in electronics
Partners
datasheets documentation electronic ebooks datasheet archive data books circuit diagrams
Our users
Accounts:
Today:
Yesterday:
Total: -1

Statistic:


Op amp circuit

    
Example: Infrared control system
Electronic circuits archive 


Op amp circuit



Source: DIBs Circats




..::::..


Related electronic circuits:

Flasher Circuit (16k) This two-transistor, two-wire circuit finds numerous applications.

Op amp circuit #3- True balanced / instrumentation style input circuit.

Solar Engine Circuit - Utra Efficient circuit runs small DC motor in a poorly lit room

Solar Engine Circuit - Utra Efficient circuit runs small DC motor in a poorly lit room

Op amp circuit #5- Single supply op amp circuit.

Op amp circuit #5- Single supply op amp circuit.

±4 TO ±18 VOLT, 500 MILLIAMPERE D.C. POWER SUPPLY. This is a simple, general-purpose power supply intended for laboratory applications that require both a positive and negative current. The circuit uses commonly-available integrated circuit regulators that provide integral thermal overload protection as well as safe-area limiting.

UNIPOLAR STEPPER MOTOR CONTROL CIRCUIT. This circuit controls a small, four-phase, five-wire, unipolar stepper motor, commonly designated the "KP4M4-001." This type of motor was used in many 5 1/4" floppy disk drives in older computers. Now obsolete, such disk drives are often available on the surplus market for a small fraction of the motor's original cost. The stepper motors are easy to extract from the drives, and are ideal for many applications. This arrangement was used in the scale model of a RADAR set to control the position of a miniature parabolic antenna. (Note that some 5 1/4" floppy disk drives used a four-wire "bipolar" motor, which is not compatible with this circuit.)

UNIPOLAR STEPPER MOTOR CONTROL CIRCUIT. This circuit controls a small, four-phase, five-wire, unipolar stepper motor, commonly designated the "KP4M4-001." This type of motor was used in many 5 1/4" floppy disk drives in older computers. Now obsolete, such disk drives are often available on the surplus market for a small fraction of the motor's original cost. The stepper motors are easy to extract from the drives, and are ideal for many applications. This arrangement was used in the scale model of a RADAR set to control the position of a miniature parabolic antenna. (Note that some 5 1/4" floppy disk drives used a four-wire "bipolar" motor, which is not compatible with this circuit.)

ECHO TONE OSCILLATOR. This simple circuit amplitude-modulates a single tone in such a manner to approximate the echo effect one might obtain, for instance, with sonar apparatus. Any reader who has been on a sonar-equipped vessel will realize that some imagination is required to appreciate the similarities among this simple scheme and the "real thing." However, this circuit might adjunct a small model (of a submarine, perhaps) to add the dimension of sound.



ATTENTION! Op amp circuit, as all other schemes are located on the sites of their rightful owners. We are not liable for the contents of other sites as well as the site having a circuit Op amp circuit. Pressing the button you must get onto a page with Op amp circuit.

Valid HTML 4.01 Transitional Valid CSS!Datasheets IC electronical components datasheets
 © KAZUS.INFO - Electronic portal 2003-2024