Remote Eye Lite v1.0.7 S^1 S^3 Anna Belle (FP1) - Free J2ME App Download

type='html'>The application allows remote:
- Capture images from the camera,
- Effects of sound reproduction
- The display light flashes
These functions are activated by short text messages (SMS).
Possible uses: control of the property (for example, during a vacation), observing the children's room, alarms light / sound and just fun.

Languages​​: English, German, Portuguese, Vietnamese

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simple circuit of infra red remote control

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By using the NE 555 and LM 567we can create a system of remote control via infra red light media. This system works based on the frequency of reading the signal transmitted, so that the frequency of the signal transmitter in the series must be the same as the receiving frequency.

Frequency on the transmitter is determined by the value of R1 and C1 based on the following equation:

infra red remote control Transmitter

As mentioned above, the recipient must also have the same detection frequency with a frequency that transmitted by a circuit of transmitter. Frequency of a circuit of receiver is determined by the following equation:

infra red remote control Reciever

To simplify the process of tunning, R1 on the part of the receiver is a variable resistor. while at the transmitter is still valuable. When the series was ready, so that the system can work well, the first step is to do tunning, with the way the transmitter is turned on continuously, while R1 is set in the value until the recipient can detect the signal transmitter

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Remote Control infra Merah Sederhana

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By using the NE 555 and LM 567, we can make the system infra red remote control. Remote control works based on this reading frequency signal that is sent, so that the transmitter frequency signal must be the same as the receive frequency. Frequency on the remote control transmitter is determined by the value R1 and C1 based on the following equation:

Skema Rangkaian Remote Control Transmitter

As mentioned above, the remote control must have the same frequency with the frequency transmitted by the transmitter chain. Recipient of this frequency range can be determined with the following equation:

Skema Rangkaian penerima Remote Control

To simplify the process of tunning, R1 at the recipient install a remote control in the variable resistor (VR). while the transmitter constant value (resisitor tetep / normal). If a circuit of remote control has been completed on the raft, to know whether a circuit of working well, the first step must be done is make tunning, with the transmitter is turned on continuously, while R1 is set so that the recipient can detect the signal transmitter. If the tuning is successful, the relay recipient akan romote control switch position (nye-Tech), when it has happened means that a circuit of remote control is working well. to the next can try pressing the switch on the remote control at the sender (transmitter). should switch on when the press kutup relay at the remote recipients will move kutup (nye-Tech).

Rangkaian Radio Remote Control Mobil Mainan

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Rangkaian Remote Control Mobil Mainan

In this system, radio signals emanated not continue to be raised but only when the controller sends the right / left or forward / backward, that is only a radio frequency that discontinuous,so that the credit delivery frequency radio waves.

The amount of credit that is sent to represent the command post, the forward was represented with 8 credits, left represented with 16 credits, 32 credits right and Backward 64 credits. Commands can be sent is a combination of 2 commands, namely the combination of forward / backward and right / left, as an example can be sent forward and the left, in this case the amount of credit that is sent 24, the Answer of the forward and the balance of 8 the left as many as 16 credits.

Skema Rangkaian Pemancar Radio Remote Control

Skema Rangkaian Penerima Radio Remote Control

Making transformer TX and RX:

Transformer T1 in series transmitter and recipient, is the same, and must be made. Transformer was built using plastic koker transformer (spare part radio) so that the step appears to have 5 channels that can be filled with a wire coil, as shown in the picture. Wearing this koker facilitate scrolling wire transformer. If it can not be koker like that, just use the normal. Koker transformer is small and ferit is also small (3 mm) as the first assembly is often used for CB 27 MHz radio.

Transformer wire to wire to use in the unloading of koker, and slowly open the wire coil inside the existing wire koker because it is quite smooth and easy to drop out

• coil wire from the foot of the number to 5 feet 4 hours direction (CW) of 3-and-roll at level 1 (line at the bottom line above)
• Scroll through the wire from 1 foot to 2 feet clockwise roll of 4 on the exact level 2.
  
• Continue to roll (from step 2) clockwise a quarter roll of 3 to 3 feet in three levels. (You can set exactly a quarter roll, because the path that has kokernya be split into 4).

Making coil L1
Scroll through the copper wire diameter size of 0.3 - 0.5 mm of 10 quarter roll koker in diameter about 4 mm (which will be released later) is also clockwis

Making coil L2
Scroll through the copper wire diameter of 0.1 mm sizes of 50 on the roll without koker plastic ferit diameter about 3.5 - 4 mm (search item from the plastic material used) is also clockwise. The length of the coil along liputi in 5 mm.

Rangkaian Remote Control IC 555

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Remote Control menggunakan IC 555

Ic 555 is an integrated circuit (chip) implementing a variety of timer and multivibrator applications. The IC was designed by Hans R. Camenzind in 1970 and brought to market in 1971 by Signetics (later acquired by Philips). The original name was the SE555 (metal can)/NE555 (plastic DIP) and the part was described as "The IC Time Machine". It has been claimed that the 555 gets its name from the three 5-kohm resistors used in typical early implementations, but Hanz Camenzind has stated that the number was arbitrary The part is still in wide use, thanks to its ease of use, low price and good stability. As of 2003 it is estimated that 1 billion units are manufactured every year.

Depending on the manufacturer, the standard 555 package includes over 20 transistors, 2 diodes and 15 resistors on a silicon chip installed in an 8-pin mini dual-in-line package (DIP-8).

The 556 is a 14-pin DIP that combines two 555s on a single chip. The 558 is a 16-pin DIP that combines four slightly modified 555s on a single chip (DIS & THR are connected internally, TR is falling edge sensitive instead of level sensitive).

Also available are ultra-low power versions of the 555 such as the 7555 and TLC555. The 7555 requires slightly different wiring using fewer external components and less power.

Skema Rangkaian Remote Control IC 555

The connection of ic 555 as follows:

• GND(1)Ground, low level (0V)
• TRIG(2)A short pulse high-to-low on the trigger starts the timer
• OUT(3)During a timing interval, the output stays at +VCC
• RESET(4)A timing interval can be interrupted by applying a reset pulse to low (0V)
• CTRL (5)Control voltage allows access to the internal voltage divider (2/3 VCC)
• THR (6)The threshold at which the interval ends (it ends if U.thr → 2/3 VCC)
• DIS (7)Connected to a capacitor whose discharge time will influence the timing interval
• V+, VCC(8) The positive supply voltage which must be between 3 and 15 V

Rangkaian Control DC Fan Menggunakan Remote TV

type='html'>Control DC Fan Menggunakan Remote TV

This circuit measures temperature in Celsius and displays it on an alphanumeric LCD. When temperature rise to 40C an alarm is activated and the electromechanical relay is also activated which drives a fan to keep the temperature at a level. Another feature of this circuit is that you can use the keys "1,2,3,4" of a Philips TV IR remote to turn on or off three relays. Key '4' is used to turn on or off the buzzer alarm.

Skema Rangkaian Control DC Fan Menggunakan Remote TV

The MCU is the ATMEL AT89C51. The LM35 is an TO-92 package temperature sensor. It senses heat from 0C to 100C. The output provides 10mV/C. We use the simple analog to digital converter, ADC0804 to convert the analog signal to digital data. The 8-bit digital data is tied to PORT1. This data is processed by microcontroller and the temperature is displayed on lcd connected to PORT2. The control pins of lcd are connected to PORT0. Some bits of the PORT0 also control the relays and buzzer. The ULN2003 chip is used to drive the relays. Pin 1 to 7 are the inputs and 10 to 16 are respective outputs. Pin 8 is ground and pin 9 is connected to the output of 7808 voltage regulator. The 7805 voltage regulator drives rest of the circuit. I used a standard buzzer driven by LM555 timer/oscillator chip. The 555 circuit is a multivibrator having output for driving the buzzer. We may use any IR receiver module and connect the output to pin 10 of microcontroller. The relay connected to pin 13 of ULN2003 turns on when temperature rises above 40C.

You may download all files in zip format. The file contains the images of completed project, hex file, circuit diagram and pcb file.

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Rangkaian Infra Red Remote Tester

type='html'>Infra Red Remote Tester

The circuit is very effective to test the remote controls what still works or not, the remote record will be tested using infra red. Examples of the TV remote, AC and others. Please try I am sure 100% will be successful.

Rangkaian Remote Tester

The workings of the circuit is very simple, when the infra red sensor receive infrared signals pin 2 sensor will produce a voltage, this voltage will drives the PNP transistor so that the LED lamp and piezo disc (BZ) is active. for the power supply you can use a 9 volt battery and then use IC 7805 or use 1.5 volt batteries x 3

Following the specification of components installed

• Transistor BC557
• TSOP 1738 Sensor Infra Red
• R1 = 10k ohm ¼ watt Resistor
• R2 = 1k ohm ¼ watt Resistor
• R3 = 1k ohm ¼ watt Resistor
• BZ = piezo disc
• led

TSOP 1738 Sensor Infra Red



Features

• Photodetector and preamplifier circuit in the same casing.
• Receives and amplifies the infrared signal without any external component.
• 5 V output (active at level 0).
• 38 kHz integrated oscillator.
• High sensitivity.
• High level of immunity to ambient light.
• Improved shielding against electrical field interference.
• TTL and CMOS compatibility.
• Applications: infrared remote control.

Technical specification

• Supply: 5 V
• Power consumption: 0.4 to 1.0 mA
• Min. Ee irradiation: 0.35 mW/m2 typ.
• Angle of detection: 90
• Dimensions of the casing (mm): 12.5 x 10 x Thickness 5.8
• Temperature range: -25 C to +85 C