Showing posts with label system. Show all posts
Showing posts with label system. Show all posts
Sunday, August 31, 2014
Bidirectional Photoelectric System
Photoelectric detectors are usually unidirectional, i.e. they are able to detect when someone enters a particular area but not when leaves it. On the contrary, a system able to detect movement in both directions could be useful to control shops, rooms etc.
If installed in a shop it could allow to know if all customers entering the premises have left them at the end of the day. Or, at home, it could be used to switch on the light (or any other electric device) when one enters the room and to switch off the electric device when he or she leaves it.
Furthermore, the schema is able to control the number of people, as it switches off the electrical device only when the last person has left the controlled area.
Parts:
R1,R4__________Photo resistors (any type)
R2,R5___________20K 1/2W Trimmers (Cermet)
R3,R6____________2M2 1/4W Resistors
R7,R8___________10K 1/4W Resistors
R9______________22K 1/4W Resistor
C1,C2__________470nF 63V Polyester Capacitors
C3_____________100µF 25V Electrolytic Capacitor
D1-D7_________1N4148 75V 150mA Diodes
IC1_____________4093 Quad 2 input Schmitt NAND Gate IC
IC2____________40193 Presettable Dual Clock Up/Down Binary Counter IC
Q1_____________BC337 45V 800mA NPN Transistor
P1______________SPST Pushbutton
RL1_____________Relay with SPDT 2A @ 230V switch
Coil Voltage 12V. Coil resistance 200-300 Ohm
R1 and R2 are two common Photo resistors placed about 1cm apart and both facing the same source of light (e.g. a beam generated by any type of lamp placed on the opposite side of a door threshold). If a person passes through the door in one direction, the light is prevented to hit R1 at first, then R2: in this case IC2 counts up once. If the door is passed through in the opposite direction, the light is prevented to hit R2 at first, then R1: in this case IC2 counts down once.
The four outputs of IC2 feed the Base of Q1 (the Relay driver) by means of D3 - D6. Therefore the Relay will be energized each time one or more persons (up to 15) enter the room, and will remain in the "on" state until the same amount of persons entered has left the room.
C1, R3, IC1C and C2, R6, IC2D form two monostable diagram, employed to shape the input pulses driving the up and down clock inputs of IC2. The first monostable to be started will stop the other by means of a diode (D1 or D2) in order to prevent an immediate up-down counting (or vice-versa) of IC2.
P1 resets the counter.
Notes:
* R2 and R5 should be trimmed in order to allow proper operation of the Photo resistors, depending by the light source, distance etc.
* For this reason and therefore to allow a reliable operation, a 12V regulated supply for this schema is recommended.
* The schema was designed to count up to 15 people. This number can be increased cascading a further 40193 to IC2 thus allowing a maximum count of 255.
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If installed in a shop it could allow to know if all customers entering the premises have left them at the end of the day. Or, at home, it could be used to switch on the light (or any other electric device) when one enters the room and to switch off the electric device when he or she leaves it.
Furthermore, the schema is able to control the number of people, as it switches off the electrical device only when the last person has left the controlled area.
Parts:
R1,R4__________Photo resistors (any type)
R2,R5___________20K 1/2W Trimmers (Cermet)
R3,R6____________2M2 1/4W Resistors
R7,R8___________10K 1/4W Resistors
R9______________22K 1/4W Resistor
C1,C2__________470nF 63V Polyester Capacitors
C3_____________100µF 25V Electrolytic Capacitor
D1-D7_________1N4148 75V 150mA Diodes
IC1_____________4093 Quad 2 input Schmitt NAND Gate IC
IC2____________40193 Presettable Dual Clock Up/Down Binary Counter IC
Q1_____________BC337 45V 800mA NPN Transistor
P1______________SPST Pushbutton
RL1_____________Relay with SPDT 2A @ 230V switch
Coil Voltage 12V. Coil resistance 200-300 Ohm
R1 and R2 are two common Photo resistors placed about 1cm apart and both facing the same source of light (e.g. a beam generated by any type of lamp placed on the opposite side of a door threshold). If a person passes through the door in one direction, the light is prevented to hit R1 at first, then R2: in this case IC2 counts up once. If the door is passed through in the opposite direction, the light is prevented to hit R2 at first, then R1: in this case IC2 counts down once.
The four outputs of IC2 feed the Base of Q1 (the Relay driver) by means of D3 - D6. Therefore the Relay will be energized each time one or more persons (up to 15) enter the room, and will remain in the "on" state until the same amount of persons entered has left the room.
C1, R3, IC1C and C2, R6, IC2D form two monostable diagram, employed to shape the input pulses driving the up and down clock inputs of IC2. The first monostable to be started will stop the other by means of a diode (D1 or D2) in order to prevent an immediate up-down counting (or vice-versa) of IC2.
P1 resets the counter.
Notes:
* R2 and R5 should be trimmed in order to allow proper operation of the Photo resistors, depending by the light source, distance etc.
* For this reason and therefore to allow a reliable operation, a 12V regulated supply for this schema is recommended.
* The schema was designed to count up to 15 people. This number can be increased cascading a further 40193 to IC2 thus allowing a maximum count of 255.
Saturday, August 16, 2014
2 1 Surround Speaker System Wiring diagram Schematic
"Simple 2.1 Surround Speaker System " . Here I have used three TDA 2030 IC for making signal amplification . Here you need a sub filter extra ( Sub filter schema diagram link showing below ) . This project mostly used in computer . Part list and applications are showing below.
Part List
| Component No: | Value | Usage |
| All C1 | 100MF | Grounding |
| All C2 | 100nF | Grounding |
| All C3 | 100nF | Grounding |
| All C4 | 100MF | Grounding |
| All C5 | 100MF | Feedback |
| All C6 | 100MF | Audio Coupling |
| All C7 | 220nF | Noise Grounding |
| All R1 | 1K | |
| All R2 | 10K ( Not 1K ) | |
| All R3 | 22K | |
| All R4 | 22K (Not 1K ) | |
| All RV1 | 100K | Volume Controlling |
| All D1 To D2 | IN4007 | Potential Breaking |
| U1 To U6 | TDA2030 | Amplification |
Applications
* 2.1 Surround Amplifier
* 2.1 Home Theater
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