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Wireless Transmitter + Superregenerative Receiver Pair 315MHz

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Wireless Transmitter + Superregenerative Receiver Pair 315MHz

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Shown images are ilustrative only. Please refer to manufacturer's website and/or available datasheet for accurate information.

QtyUnit PriceLot Price
1C$2.2300C$2.23
2C$1.9520C$3.90
5C$1.6940C$8.47
10C$1.4560C$14.56
20C$1.2230C$24.46
DIPMICRO DISCONTINUED

Product Information
dipmicro Code DE4220
Added 2013-06-05
Manufacturer Generic
Stock Type New
Restockable? No
Shipping Weight 5.0g / 0.176oz
Ship Cost Canada CP O/S Letter C$4
Ship Cost USA USPS First Class $4
Ship Cost World Economy C$5.00

Receiver

  • Model: MX-05V
  • Working voltage: 5V DC
  • Quiescent current: 4mA
  • Receiver Frequency: 315MHz
  • Receiver sensitivity: -105DB
  • Dimensions: 30 x 14 x 7mm
  • Pinout: Pin1=Antenna (left side lone pin), Pin2=VCC, Pin3=DataOut, Pin4=DataOut, Pin5=GND

Transmitter

  • Transmitter Model: MX-FS-03V
  • Transmission Distance :20-200 m (dependent on supply voltage)
  • Operating Voltage :3.5-12V
  • Dimensions: 19 x 19mm
  • AM transfer rate: 4KB / S
  • Transmission power: 10mW
  • Emission frequency: 315MHz
  • Pinout: Pin1=DataIn, Pin2=VCC, Pin3=GND

Notes

When using an external antenna a 1/4 wavelength is recommended. Ideally use 50 impedance ohm single-core wire, the length of the antenna 433M is about 17cm (1/4 wavelength). When locating the receiver antenna keep it as far away as possible from shielded areas, high voltages, and any other possible interfering frequencies.

APPLICATIONS: Remote control switch, receiver module, motorcycles, automobile anti-theft products, household anti-theft products, electric doors, shutter doors, windows, remote control socket, remote control the LED, remote control stereo, remote control electric gate, garage door remote control, remote control retractable doors, remote control volume gate, pan doors, remote control door opener, door closing device control system, remote control curtains, alarm system, alarm, remote control motorcycle, remote control electric cars, remote control such as MP3.

Programming Examples

ARDUINO TRANSMIT EXAMPLE

/* FILE:    MXFS03V_433MHZ_MODULE_HCMODU0007_TRANSMIT_EXAMPLE.pde
   DATE:    03/03/13
   VERSION: 0.1
   AUTHOR:  Andrew Davies

This is an example of how to use the 433MHz wireless transmitter module 
(HCMODU0007) which is the Tx part of the tranmitter and receiver module pair.
This example makes use of the VirtualWire library written by Mike McCauley.
The sketch will read a value from the analogue input A0 and transmit it as 
2 bytes to the receiver module once every second.

Tx MODULE CONNECTIONS:

PIN  DESCRIPTION      ARDUINO PIN
1    GND              GND
2    VCC (3.5-12V)    VCC
3    TX DATA          D2


You may copy, alter and reuse this code in any way you like, but please leave 
reference to HobbyComponents.com in your comments if you redistribute this code. 

THIS SOFTWARE IS PROVIDED "AS IS". HOBBY COMPONENTS LTD MAKES NO WARRANTIES, WHETHER 
EXPRESS, IMPLIED OR STATUTORY, INCLUDING, BUT NOT LIMITED TO, IMPLIED WARRANTIES OF 
MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ACCURACY OR LACK OF NEGLIGENCE.
HOBBY COMPONENTS SHALL NOT, IN ANY CIRCUMSTANCES, BE LIABLE FOR ANY DAMAGES, 
INCLUDING, BUT NOT LIMITED TO, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY 
REASON WHATSOEVER.
*/


/*Include the VirtualWire library */
#include 

/* Digital IO pin that will be used for sending data to the transmitter */
const int TX_DIO_Pin = 2;


void setup()
{
  pinMode(13, OUTPUT);
  /* Initialises the DIO pin used to send data to the Tx module */
  vw_set_tx_pin(TX_DIO_Pin);
  /* Set the transmit logic level (LOW = transmit for this 
     version of module)*/ 
  vw_set_ptt_inverted(true); 
  
  /* Transmit at 2000 bits per second */
  vw_setup(2000);    // Bits per sec
}

/* Main program */
void loop()
{
  /* Temporarily holds the value read from analogue input A0 */
  unsigned int Data;
  /* The transmit buffer that will hold the data to be 
     transmitted. */
  byte TxBuffer[2];
  
  /* Read the analogue input A0... */
  Data = analogRead(A0);
  /* ...and store it as high and low bytes in the transmit 
     buffer */
  TxBuffer[0] = Data >> 8;
  TxBuffer[1] = Data;
  
  /* Turn on the LED on pin 13 to indicate that we are about 
    to transmit data */
  digitalWrite(13, HIGH); 
  /* Send the data (2 bytes) */
  vw_send((byte *)TxBuffer, 2);
  /* Wait until the data has been sent */
  vw_wait_tx(); 
  
  /* Turn off the LED on pin 13 to indicate that we have 
     now sent the data */
  digitalWrite(13, LOW); 
  
  /* Do nothing for a second. Lower this delay to send 
     data quicker */
  delay(1000);
}

ARDUINO RECEIVE EXAMPLE

/* FILE:    MX05V_433MHZ_MODULE_HCMODU0007_RECEIVE_EXAMPLE.pde
   DATE:    03/03/13
   VERSION: 0.1
   AUTHOR:  Andrew Davies

This is an example of how to use the 433MHz wireless reciever module 
(HCMODU0007) which is the Rx part of the tranmitter and reciver module pair.
This example makes use of the VirtualWire library written by Mike McCauley.
This sketch in intended to be used with the Tx example code to recive analogue
input data sent from the transmitting Arduino. The received data is then output 
to the UART.

Rx MODULE CONNECTIONS:

PIN  DESCRIPTION      ARDUINO PIN
1    GND              GND
2    RX DATA          D2
3    RX DATA          N/A
4    VCC (5V)         VCC


You may copy, alter and reuse this code in any way you like, but please leave 
reference to HobbyComponents.com in your comments if you redistribute this code. 

THIS SOFTWARE IS PROVIDED "AS IS". HOBBY COMPONENTS LTD MAKES NO WARRANTIES, WHETHER 
EXPRESS, IMPLIED OR STATUTORY, INCLUDING, BUT NOT LIMITED TO, IMPLIED WARRANTIES OF 
MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ACCURACY OR LACK OF NEGLIGENCE.
HOBBY COMPONENTS SHALL NOT, IN ANY CIRCUMSTANCES, BE LIABLE FOR ANY DAMAGES, 
INCLUDING, BUT NOT LIMITED TO, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY 
REASON WHATSOEVER.
*/


/*Include the VirtualWire library */
#include 

/* Digital IO pin that will be used for receiving data from the receiver */
const int RX_DIO_Pin = 2;

void setup()
{
    pinMode(13, OUTPUT);
    Serial.begin(9600);

    /* Initialises the DIO pin used to receive data from the Rx module */
    vw_set_rx_pin(RX_DIO_Pin);
    
    /* Receive at 2000 bits per second */
    vw_setup(2000);
    
    /* Enable the receiver */
    vw_rx_start(); 
}

/* Main program */
void loop()
{
  /* Set the receive buffer size to 2 bytes */
  uint8_t Buffer_Size = 2;
  
  /* Holds the recived data */
  unsigned int Data;
  
  /* The receive buffer */
  uint8_t RxBuffer[Buffer_Size];

    /* Has a message been received? */
    if (vw_get_message(RxBuffer, &Buffer_Size)) // Non-blocking
    {
        /* If so, then turn on the LED connected to DIO 13 
           to indicate this */
        digitalWrite(13, HIGH); 
   
        /* Store the received high and low byte data */
        Data = RxBuffer[0] << 8 | RxBuffer[1];

        /* Output this data to the UART */
   Serial.print("Analogue pin A0: ");
        Serial.println(Data);
   
        /* Turn off the LED on pin 13 to indicate that the 
           data has now been received */
        digitalWrite(13, LOW);
    }
}