Schematic | Circuit guide | Manual Wiring diagram | Electronic
Showing posts with label electronic. Show all posts
Showing posts with label electronic. Show all posts

AUTOMATIC INTRUDER ALARM ELECTRONIC DIAGRAM

Posted by Unknown Tuesday, October 1, 2013 0 comments
A timed Bell/Siren Cut-Off. It’s designed to be used with the usual types of normally-closed input devices such as – magnetic reed contacts – micro switches – foil tape – and PIRs.
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PHONE BROADCASTER ELECTRONIC CIRCUIT DIAGRAM

Posted by Unknown Saturday, September 28, 2013 0 comments
PHONE BROADCASTER ELECTRONIC CIRCUIT DIAGRAM

The automatic switching consists of resistors R1-R3, variable resistor VR1 as the regulator, transistor T1 and T2, zener diode D2, and diode D1. R1 and VR1 is useful as an input voltage divider from the telephone line.

Parts list :

  •     Resistor R1-R2, R4 : 47k ohm
  •     Resistor R3 : 100 ohm
  •     Resistor R5 : 22k ohm
  •     Resistor R6 : 1M ohm
  •     VR1 : 100k ohm
  •     Diode D1 : 1N4001
  •     Zener diode D2 : 24V, 400mA
  •     Capacitor C1 : o.o1 uF
  •     Capacitor C2 : 330 pF
  •     Trimmer C3 : 50p
  •     Capacitor C4 : 5.6 pF
  •     Capacitor C5 : 10 pF
  •     Transistor T1-T2 : BC548
  •     Transistor T3 : BF494
  •     Inductor L1 : 45rotation 36SWG in resistor carbon 1M 1W
  •     Inductor L2 : 3 rotation 21 SWG 12mm diameter
  •     Antenna
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Electronic Fuse Employs A Relay

Posted by Unknown Tuesday, April 30, 2013 0 comments
while many power supplies can be set to limit their output current to a defined level, to protect the circuit they are powering, no such protection is available if you are powering a circuit from a battery. If a fault develops, the circuit can blow before you have a chance to disconnect it. Of course, you can fit a fuse in series with the supply line to the circuit under test but it will blow if a fault develops. Or perhaps it won’t blow sufficiently quickly to protect the circuit. And repeatedly having to replace fuses becomes a nuisance as well.

Electronic Fuse Employs A Relay
The alternative is to use an electronic fuse. This circuit uses a relay to make and break the circuit. The current drain of the circuit under test is monitored by a 1O 2W resistor which is placed in series with the supply line. The voltage across this 1O resistor is monitored by op amp IC1a which has an adjustable gain of between 11 and 16, as set by trimpot VR1. The resultant DC voltage from pin 1 of IC1a is fed to pin 5 of IC1b which is configured as a comparator. Trimpot VR2 provides an adjustable voltage reference to pin 6 of IC1b and this is compared with the amplified signal from IC1a.

If IC1b’s threshold is exceeded, its pin 7 goes high and this is fed to Schmitt trigger inverter IC2a which then “sets” the RS flipflop comprising gates IC2c & IC2d. Pin 11 of IC2d then goes high to turn on transistor Q2 and LED1 while pin 4 of IC2b also goes high to turn on Q1 and the relay which then disconnects the load. The circuit stays in this state until the RS flipflop is reset by pushing switch S1. Capacitor Cx, across the feedback resistance of IC1a, is used to simulate a slow-blow or fast-blow fuse and can be selected by trial and error. Changing the gain of IC1a or the value of the sensing resistor changes the fuse rating of the circuit.
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CONSTANT BRIGNESS LED AND MUTE CONTROL ELECTRONIC DIAGRAM

Posted by Unknown Saturday, April 13, 2013 0 comments

CONSTANT BRIGNESS LED AND MUTE CONTROL ELECTRONIC DIAGRAM

The output power of the modules are approximately 220W to 250W into 8? and 350W to 400W into 4?. Complete documentation for the amplifier modules can be found in the documents listed below. AN-1850 LME49830TB Ultra-High Fidelity, High-Power Amplifier Reference Design Although the power supply design is specific to the amplifier modules the concepts and circuit design may be used for any power supply purpose. The power supply is an unregulated design with an option to allow connection to either 120V or 240V mains. The design uses toroidal transformers, a fully integrated bridge, and various rail capacitors for ripple voltage reduction, noise suppression, and to act as high current reservoirs. Additional circuitry to control inrush current on power up and power up/ down Mute control are also included.

The topics discussed inside the application note including the introduction, overview, schematic and design, power supply, additional circuit, inrush current control, mute control, constant brightness LED circuit, summary, and many more.
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SEMICONDUCTOR FMS6363 LOW COST VIDEO FILTER ELECTRONIC DIAGRAM

Posted by Unknown Sunday, April 7, 2013 0 comments

SEMICONDUCTOR FMS6363 LOW COST VIDEO FILTER ELECTRONIC DIAGRAM

The FMS6363 Low Cost Video Filter (LCVF) provides 6dB gain from input to  output. In addition, the input will be slightly offset to optimize the output driver performance. The FMS6363 provides an internal diode clamp to support AC-coupled input signals. If the input signal does not go below ground, the input clamp will not operate. This allows DAC outputs to directly drive the FMS6363 without and AC coupling capacitor (usually 220 ?F). The offset is held to the minimum required value to decrease the standing DC current into the load.
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