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RYLR406 868MHz /915MHz  SX1276 LoRa TTL Data link rf module Maximize

RYLR406 433MHz /470MHz SX1278 LoRa TTL Data link rf module

RYLR406 433MHz, 470MHz high performance transparent transceiver with  LoRa/FSK/ GFSK/OOK modulation variety.It's mainly use for uav controller and drone data link.

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$ 20.00

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ProductFrom (qty)Discount
RYLR406 433MHz /470MHz SX1278 LoRa TTL Data link rf module100 -$ 3.00
RYLR406 433MHz /470MHz SX1278 LoRa TTL Data link rf module50 -$ 2.50
RYLR406 433MHz /470MHz SX1278 LoRa TTL Data link rf module10 -$ 2.00

1 other products in the same category:

RYLR406 433MHz /470MHz SX1278 LoRa TTL Data link rf module <p><span style="font-size: 11px;">The RYLR406 transceiver module feature the Lora long range modem that provides ultra-long range spread spectrum communication and high interference immunity whilst minimising current consumption. The module is certified by NCC and FCC.</span></p> <h2>FEATURES</h2> <ul class="product-features"> <li>Application: Iot Applications, Mobile Equipment, Home Security, Industrial Monitoring and Control Equipment, Car Alarm.</li> <li>Certification: NCC, FCC</li> <li>Frequency Range:433/470 MHz</li> <li>Semtech SX1278 Engine</li> <li>High efficiency Power Amplifier</li> <li>Excellent blocking immunity</li> <li>Low Receive current</li> <li>High sensitivity</li> <li>Control easily by AT commands</li> <li>127 dB Dynamic Range RSSI</li> <li>Designed with PCB integrated antenna</li> <li>AES128 Data encryption</li> <li>Operation temperature: -40℃ to +85℃</li> <li>Dimension: 42.5*18.36*5.5 mm</li> <li>Weight: 7g</li> </ul> <p> </p> <h2>PIN DESCRIPTION</h2> <p><img title="dwmzone-rylr896-PIN DESCRIPTION" src="http://dwmzone.com/img/cms/dwmzone-rylr896-PIN%20DESCRIPTION.png" alt="dwmzone-rylr896-PIN DESCRIPTION" width="514" height="333" /></p> <table style="width: 339px;" border="2" cellspacing="0" cellpadding="0"><colgroup><col width="76" /> <col width="54" /> <col width="54" /> <col width="155" /> </colgroup> <tbody> <tr> <td class="xl65" width="76" height="19"><strong>Pin</strong></td> <td class="xl63" width="54"><strong>Name</strong></td> <td class="xl67" width="54"><strong>I/O</strong></td> <td class="xl65" width="155"><strong>Condition</strong></td> </tr> <tr> <td class="xl65" height="19">1</td> <td class="xl63">VDD</td> <td class="xl67">I</td> <td class="xl63">Power Supply</td> </tr> <tr> <td class="xl65" height="95">2</td> <td class="xl63">NRST</td> <td class="xl67">I</td> <td class="xl64" width="155">RESET(Active Low)100KΩ Internal pull up,<br /> Pull down at least 100ms</td> </tr> <tr> <td class="xl65" height="19">3</td> <td class="xl63">RXD</td> <td class="xl67">I</td> <td class="xl63">UART Data Input</td> </tr> <tr> <td class="xl65" height="19">4</td> <td class="xl63">TXD</td> <td class="xl67">O</td> <td class="xl63">UART Data Output</td> </tr> <tr> <td class="xl65" height="19">5</td> <td class="xl63">NC</td> <td class="xl67">-</td> <td class="xl63"> </td> </tr> <tr> <td class="xl65" height="19">6</td> <td class="xl63">GND</td> <td class="xl67">-</td> <td class="xl63">Ground</td> </tr> </tbody> </table> <h2><br />BLOCK DIAGRAM</h2> <p><img title="dwmzone-BLOCK- DIAGRAM" src="http://dwmzone.com/img/cms/dwmzone-BLOCK-%20DIAGRAM_1.png" alt="dwmzone-BLOCK- DIAGRAM" width="697" height="450" /></p> <h2>SPECIFICATION</h2> <table style="width: 523px;" border="2" cellspacing="0" cellpadding="0"><colgroup><col width="125" /> <col span="4" width="72" /> <col width="110" /> </colgroup> <tbody> <tr> <td class="xl65" width="125" height="21">Item</td> <td class="xl65" width="72">Min.</td> <td class="xl65" width="72">Typical</td> <td class="xl65" width="72">Max.</td> <td class="xl65" width="72">Unit</td> <td class="xl65" width="110">Condition</td> </tr> <tr> <td class="xl66" width="125" height="42">VDD Power Supply</td> <td class="xl67" width="72">2</td> <td class="xl67" width="72">3.3</td> <td class="xl67" width="72">3.6</td> <td class="xl67" width="72">V</td> <td class="xl67" width="110">VDD</td> </tr> <tr> <td class="xl66" width="125" height="47">RF Output Power Range</td> <td class="xl67" width="72">-4</td> <td class="xl67" width="72"> </td> <td class="xl67" width="72">15</td> <td class="xl67" width="72">dBm</td> <td class="xl67" width="110"> </td> </tr> <tr> <td class="xl66" width="125" height="40">Filter insertion loss</td> <td class="xl67" width="72">1</td> <td class="xl67" width="72">2</td> <td class="xl67" width="72">3</td> <td class="xl67" width="72">dB</td> <td class="xl67" width="110"> </td> </tr> <tr> <td class="xl66" width="125" height="20">RF Sensitivity</td> <td class="xl67" width="72">-148</td> <td class="xl67" width="72"> </td> <td class="xl67" width="72"> </td> <td class="xl67" width="72">dBm</td> <td class="xl67" width="110"> </td> </tr> <tr> <td class="xl66" width="125" height="24">RF Input Level</td> <td class="xl67" width="72"> </td> <td class="xl67" width="72"> </td> <td class="xl67" width="72">10</td> <td class="xl67" width="72">dBm</td> <td class="xl67" width="110"> </td> </tr> <tr> <td class="xl66" width="125" height="22">Frequency Range</td> <td class="xl67" width="72">410</td> <td class="xl67" width="72">433</td> <td class="xl67" width="72">525</td> <td class="xl67" width="72">MHz</td> <td class="xl67" width="110"> </td> </tr> <tr> <td class="xl66" width="125" height="37">Frequency Accuracy</td> <td class="xl67" width="72"> </td> <td class="xl67" width="72">±2</td> <td class="xl67" width="72"> </td> <td class="xl67" width="72">ppm</td> <td class="xl67" width="110"> </td> </tr> <tr> <td class="xl66" width="125" height="42">Communication Range</td> <td class="xl67" width="72"> </td> <td class="xl67" width="72">4.5</td> <td class="xl67" width="72">15</td> <td class="xl67" width="72">KM</td> <td class="xl67" width="110">Depend on RF parameter</td> </tr> <tr> <td class="xl66" width="125" height="22">Transmit Current</td> <td class="xl67" width="72"> </td> <td class="xl67" width="72">43</td> <td class="xl67" width="72"> </td> <td class="xl67" width="72">mA</td> <td class="xl67" width="110">RFOP = +15 dBm</td> </tr> <tr> <td class="xl66" width="125" height="21">Receive Current</td> <td class="xl67" width="72"> </td> <td class="xl67" width="72">16.5</td> <td class="xl67" width="72"> </td> <td class="xl67" width="72">mA</td> <td class="xl67" width="110">AT+MODE=0</td> </tr> <tr> <td class="xl66" width="125" height="23">Sleep Current</td> <td class="xl67" width="72"> </td> <td class="xl67" width="72">0.5</td> <td class="xl67" width="72"> </td> <td class="xl67" width="72">uA</td> <td class="xl67" width="110">AT+MODE=1</td> </tr> <tr> <td class="xl66" width="125" height="40">Digital Input Level High</td> <td class="xl67" width="72">0.7*VDD</td> <td class="xl67" width="72"> </td> <td class="xl67" width="72">VDD</td> <td class="xl67" width="72">V</td> <td class="xl67" width="110">VIH</td> </tr> <tr> <td class="xl66" width="125" height="44">Digital Input Level Low</td> <td class="xl67" width="72">0</td> <td class="xl67" width="72"> </td> <td class="xl67" width="72">0.3*VDD</td> <td class="xl67" width="72">V</td> <td class="xl67" width="110">VIL</td> </tr> <tr> <td class="xl66" width="125" height="39">Digital Output Level High</td> <td class="xl67" width="72">0.9</td> <td class="xl67" width="72"> </td> <td class="xl67" width="72">VDD</td> <td class="xl67" width="72">V</td> <td class="xl67" width="110">VOH</td> </tr> <tr> <td class="xl66" width="125" height="42">Digital Output Level Low</td> <td class="xl67" width="72"> </td> <td class="xl67" width="72"> </td> <td class="xl67" width="72">0.1</td> <td class="xl67" width="72">V</td> <td class="xl67" width="110">VOL</td> </tr> <tr> <td class="xl66" width="125" height="46">Cycling (erase / write)</td> <td class="xl67" width="72"> </td> <td class="xl67" width="72">300</td> <td class="xl67" width="72"> </td> <td class="xl67" width="72">K</td> <td class="xl67" width="110">Cycles</td> </tr> <tr> <td class="xl66" width="125" height="39">EEPROM data memory</td> <td class="xl67" width="72"> </td> <td class="xl67" width="72"> </td> <td class="xl67" width="72"> </td> <td class="xl67" width="72"> </td> <td class="xl67" width="110"> </td> </tr> <tr> <td class="xl66" width="125" height="20">Weight</td> <td class="xl67" width="72"> </td> <td class="xl67" width="72">7</td> <td class="xl67" width="72"> </td> <td class="xl67" width="72">g</td> <td class="xl67" width="110"> </td> </tr> <tr> <td class="xl66" width="125" height="42">Operating Temperature</td> <td class="xl67" width="72"> -40</td> <td class="xl67" width="72">25</td> <td class="xl67" width="72"> +85</td> <td class="xl67" width="72">˚C</td> <td class="xl68"> </td> </tr> </tbody> </table> <h2> </h2> <h2>APPLICATIONS</h2> <p>• IoT Applications<br />• Mobile Equipment<br />• Home Security<br />• Industrial Monitoring and Control Equipment<br />• Car Alarm</p> <h3><strong>Useful Link:</strong></h3> <p><strong><span>DATASHEET: <span style="color: #ff0000;"><a title="RYLR406_EN" href="http://reyax.com/wp-content/uploads/2018/01/RYLR406_EN.pdf"><span style="color: #ff0000;">RYLR406_EN</span></a></span></span></strong></p> <p><span style="color: #000000;"><strong>AT COMMAND MANUAL: <span style="color: #ff0000;"><a title="REYAX-Lora-AT-COMMAND-GUIDE_EN" href="http://reyax.com/wp-content/uploads/2018/01/REYAX-Lora-AT-COMMAND-GUIDE_EN.pdf"><span style="color: #ff0000;">REYAX-Lora AT COMMAND GUIDE_EN</span></a></span></strong></span></p> <p> </p>
$ 21.00

The RYLR406 transceiver module feature the Lora long range modem that provides ultra-long range spread spectrum communication and high interference immunity whilst minimising current consumption. The module is certified by NCC and FCC.

FEATURES

  • Application: Iot Applications, Mobile Equipment, Home Security, Industrial Monitoring and Control Equipment, Car Alarm.
  • Certification: NCC, FCC
  • Frequency Range:433/470 MHz
  • Semtech SX1278 Engine
  • High efficiency Power Amplifier
  • Excellent blocking immunity
  • Low Receive current
  • High sensitivity
  • Control easily by AT commands
  • 127 dB Dynamic Range RSSI
  • Designed with PCB integrated antenna
  • AES128 Data encryption
  • Operation temperature: -40℃ to +85℃
  • Dimension: 42.5*18.36*5.5 mm
  • Weight: 7g

 

PIN DESCRIPTION

dwmzone-rylr896-PIN DESCRIPTION

PinNameI/OCondition
1VDDIPower Supply
2NRSTIRESET(Active Low)100KΩ Internal pull up,
Pull down at least 100ms
3RXDIUART Data Input
4TXDOUART Data Output
5NC- 
6GND-Ground


BLOCK DIAGRAM

dwmzone-BLOCK- DIAGRAM

SPECIFICATION

ItemMin.TypicalMax.UnitCondition
VDD Power Supply23.33.6VVDD
RF Output Power Range-4 15dBm 
Filter insertion loss123dB 
RF Sensitivity-148  dBm 
RF Input Level  10dBm 
Frequency Range410433525MHz 
Frequency Accuracy ±2 ppm 
Communication Range 4.515KMDepend on RF parameter
Transmit Current 43 mARFOP = +15 dBm
Receive Current 16.5 mAAT+MODE=0
Sleep Current 0.5 uAAT+MODE=1
Digital Input Level High0.7*VDD VDDVVIH
Digital Input Level Low0 0.3*VDDVVIL
Digital Output Level High0.9 VDDVVOH
Digital Output Level Low  0.1VVOL
Cycling (erase / write) 300 KCycles
EEPROM data memory     
Weight 7 g 
Operating Temperature -4025 +85˚C 

 

APPLICATIONS

• IoT Applications
• Mobile Equipment
• Home Security
• Industrial Monitoring and Control Equipment
• Car Alarm

Useful Link:

DATASHEET: RYLR406_EN

AT COMMAND MANUAL: REYAX-Lora AT COMMAND GUIDE_EN

 

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RYLR406 433MHz /470MHz  SX1278 LoRa TTL Data link rf module

RYLR406 433MHz /470MHz SX1278 LoRa TTL Data link rf module

RYLR406 433MHz, 470MHz high performance transparent transceiver with  LoRa/FSK/ GFSK/OOK modulation variety.It's mainly use for uav controller and drone data link.

Write your review