1 x Bidirectional Module (Model 0020242)
1 x User manual
Features:
Application: It can be used in super far distance remote control operation, such as farmland, pasture, offshore unmanned operations, field calls, and long-range security alarm, etc. It can remote control equipments on land, water and air, such as remote control lights, sirens, locks, motors, fans, winches, blinds, linear actuators, doors, windows, electric solenoid valves, security alarm, business signs and various devices.
It is the use of spread spectrum communication techniques, greatly enhancing the anti-jamming performance.
It is can be used either as a receive module or as a transmitter module.
Wireless control, easy to install.
Ultra high receiving sensitivity, ultra long reception distance.
It is suitable for long distance remote control and long distance communication.
Feedback function:
Can let the user know whether he/she had already connect the transmitter and receiver successfully in such a long distance.
Two-way working mode: When you trigger the transmitter module to send RF signal to the receiver module, if the receiver module has been successfully triggered or operated, it will immediately transmit a RF feedback signal to the transmitter module. Then the transmitter module will send out a buzzing sound to inform you that the receiver module has been successfully operated.
Parameters:
Operating mode Technical Parameters |
As a Receiver Module |
As a Transmitter Module |
Working Voltage |
DC 3.3V |
|
Static Current |
4~6mA |
5.5uA |
Working Current |
≤26mA |
44mA |
Receiving Sensitivity |
-148dBm |
/ |
Transmit Power |
/ |
20dBm |
Control Modes |
Self-locking, Momentary, Interlocking |
/ |
Channel |
4 |
|
Modulation Mode |
FSK (FM) + LORA (SPSP) |
|
Working Frequency |
433.92MHz |
|
Control Distance |
5000m |
|
Dimension |
52m x 28mm x 14mm |
|
Operating Temperature |
-10°C~+70°C |
Working Range:
Super long range. Two modules form a complete set, one of them as a receiver module, the other one as a transmitter module. The maximum working distance can reach 5000M on an open ground.
The maximum working distance is a theoretical data; it shall be operated in an open ground, no barriers, no any interference. But in the practice, it will be hindered by trees, walls or other constructions, and will be interfered by other wireless signals. Therefore, the actual distance may not reach this maximum working distance.
Usage:
Two modules form a complete set, one of them as a transmitter module, the other one as a receiver module which can be used to control DC 3~12V circuits or equipments. Therefore, customers should buy two or more modules.
Note: You can use one or several transmitter modules to control one or several receiver modules. This module cannot be used with other equipments modules.
Setting Operating Mode:
Set the module as a receiver module: Turn on the bit of the A Dip Switch.
Set the module as a transmitter module: Turn off the bit of the A Dip Switch.
When the module working as a transmitter, we can connect two terminals.
Connect the pin “D0” and VCC of transmitter module, the pin “D0” of receiver module outputs DC power;
Connect the pin “D1” and VCC of transmitter module, the pin “D1” of receiver module outputs DC power;
Connect the pin “D2” and VCC of transmitter module, the pin “D2 of receiver module” outputs DC power;
Connect the pin “D3” and VCC of transmitter module, the pin “D3” of receiver module outputs DC power.
Setting Different Control Modes: (for the module as a receiver module)
We have set the receiver module as Self-locking control mode before delivery. If you want to use other control modes, do as following operation:
Note: When you changed the control modes each time, restart power supply of the module.
Setting control mode Self-locking: Turn on the first bit of the Three Dip Switches.
Control mode Self-locking: Connect -> On, Connect again-> Off.
When connect the pin “D0” and VCC of transmitter module: The pin “D0” of receiver module outputs DC 3.3V power;
When connect the pin “D0” and VCC of transmitter module again: The pin “D0” of receiver module stops outputting.
When connect the pin “D1” and VCC of transmitter module: The pin “D1” of receiver module outputs DC 3.3V power;
When connect the pin “D1” and VCC of transmitter module again: The pin “D1” of receiver module stops outputting.
When connect the pin “D2” and VCC of transmitter module: The pin “D2” of receiver module outputs DC 3.3V power;
When connect the pin “D2” and VCC of transmitter module again: The pin “D2” of receiver module stops outputting.
When connect the pin “D3” and VCC of transmitter module: The pin “D3” of receiver module outputs DC 3.3V power;
When connect the pin “D3” and VCC of transmitter module again: The pin “D3” of receiver module stops outputting.
Setting control mode Momentary: Turn on the first and the second bits of the Three Dip Switches.
Control mode Momentary: Connect -> On, Disconnect -> Off.
When connect the pin “D0” and VCC of transmitter module: The pin “D0” of receiver module outputs DC 3.3V power;
When disconnect the pin “D0” and VCC of transmitter module: The pin “D0” of receiver module stops outputting.
When connect the pin “D1” and VCC of transmitter module: The pin “D1” of receiver module outputs DC 3.3V power;
When disconnect the pin “D1” and VCC of transmitter module: The pin “D1” of receiver module stops outputting.
When connect the pin “D2” and VCC of transmitter module: The pin “D2” of receiver module outputs DC 3.3V power;
When disconnect the pin “D2” and VCC of transmitter module: The pin “D2” of receiver module stops outputting.
When connect the pin “D3” and VCC of transmitter module: The pin “D3” of receiver module outputs DC 3.3V power;
When disconnect the pin “D3” and VCC of transmitter module: The pin “D3” of receiver module stops outputting.
Setting control mode Interlocking: Turn on the second bit of the Three Dip Switches.
Control mode Interlocking: Connect -> On, Connect another button -> Off.
Connect the pin “D0” and VCC of transmitter module: The pin “D0” of receiver module outputs DC 3.3V power; and other 3 pins stop outputting.
Connect the pin “D1” and VCC of transmitter module: The pin “D1” of receiver module outputs DC 3.3V power; and other 3 pins stop outputting.
Connect the pin “D2” and VCC of transmitter module: The pin “D2” of receiver module outputs DC 3.3V power; and other 3 pins stop outputting.
Connect the pin “D3” and VCC of transmitter module: The pin “D3” of receiver module outputs DC 3.3V power; and other 3 pins stop outputting.
Setting feedback function:
If you want to have a feedback function: Turn on the third bit of the dip switch both of two modules.
When the receiver module gets the signal of transmitter module, it will immediately send a return signal to the transmitter module. When the transmitter module receive the feedback signal of the receiver module, the transmitter module will exude a buzzing sound like “D~” which means it receive module the feedback signal successfully.
Instruction of pins:
Pins |
Function: as a Receiver Module |
Function: as a Transmitter Module |
D0 |
Data output (Output DC3.3V) |
Data input (Input DC3.3V) |
D1 |
Data output (Output DC3.3V) |
Data input (Input DC3.3V) |
D2 |
Data output (Output DC3.3V) |
Data input (Input DC3.3V) |
D3 |
Data output (Output DC3.3V) |
Data input (Input DC3.3V) |
GND |
The negative pole of DC power supply |
The negative pole of DC power supply |
FB |
NC |
Output Feedback Signal |
VCC |
The positive pole of DC power supply |
The positive pole of DC power supply |