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Long Range LORA RF Module Transceiver 433 MHz Frequency
The Long Range LORA RF Module Transceiver operating at 433 MHz frequency is a wireless communication module designed for extended-range, low-power IoT applications and remote sensing projects. Professional engineers and IoT developers utilize this module for building mesh networks, telemetry systems, and autonomous sensor networks where traditional WiFi and cellular connectivity are impractical or power-prohibitive. This transceiver solves the critical challenge of achieving kilometer-range wireless communication with minimal power consumption, making it ideal for battery-powered remote monitoring stations, agricultural sensors, and industrial automation systems operating in areas with limited infrastructure.
Product Overview
The Long Range LORA RF Module Transceiver operates on the 433 MHz ISM band, utilizing LoRa (Long Range) modulation technology to achieve extended communication range while maintaining ultra-low power consumption. Unlike traditional RF modules that sacrifice range for power efficiency, this transceiver implements spread spectrum modulation with configurable spreading factors, allowing users to optimize the trade-off between range and data rate based on specific application requirements. The module communicates via serial UART interface, making integration with microcontrollers like Arduino, ESP32, and STM32 straightforward, while the 433 MHz frequency provides excellent propagation characteristics in both urban and rural environments with minimal atmospheric absorption.
This LoRa transceiver module features a highly sensitive receiver capable of detecting signals at -140 dBm or better, enabling communication ranges exceeding 10 kilometers in open-field conditions and 2-3 kilometers in urban environments with obstacles. The transmit power is typically configurable from 5 dBm to 20 dBm, allowing developers to balance range requirements with power budget constraints. Built-in error correction and forward error correction (FEC) mechanisms ensure reliable data transmission even in noisy RF environments, while the compact form factor and low operating voltage (typically 3.3V to 5V) make it suitable for portable and battery-powered applications. The module's transparent serial communication protocol eliminates the need for complex RF programming knowledge, making it accessible to embedded systems engineers of all experience levels.
Key Specifications
| Specification | Details |
| Product Type | LoRa RF Module Transceiver |
| Frequency Band | 433 MHz ISM Band |
| Modulation Type | LoRa (Long Range) Spread Spectrum |
| Communication Range | 10+ km open field, 2-3 km urban environment |
| Receiver Sensitivity | -140 dBm typical |
| Transmit Power | 5 dBm to 20 dBm configurable |
| Data Rate | 0.3 kbps to 50 kbps depending on spreading factor |
| Interface | UART Serial (TTL level) |
| Operating Voltage | 3.3V to 5V DC |
| Current Consumption | Transmit: 120 mA, Receive: 15 mA, Sleep: less than 1 uA |
| Spreading Factors | SF7 to SF12 selectable |
| Bandwidth | 125 kHz, 250 kHz, 500 kHz options |
| Origin | Original/Authentic |
| Warranty | 7 days on manufacturing defects |
| Shipping | 1-5 days from Bengaluru |
| Delivery | 7-8 days across India |
| Support | 24/7 via Email and WhatsApp |
Key Features
- Extended Communication Range: Achieves 10+ kilometers in open-field conditions using LoRa modulation, eliminating the need for multiple relay nodes in many applications
- Ultra-Low Power Consumption: Sleep mode current below 1 microampere enables multi-year battery operation in remote sensor deployments
- Configurable Spreading Factors: Selectable SF7 through SF12 allows real-time optimization between range and throughput based on environmental conditions
- Transparent Serial Interface: UART communication simplifies integration with any microcontroller without requiring RF expertise or complex firmware
- Multiple Bandwidth Options: 125 kHz, 250 kHz, and 500 kHz bandwidth settings enable fine-tuning for specific interference environments
- Forward Error Correction: Built-in FEC ensures reliable data transmission in noisy RF environments typical of industrial and outdoor applications
- Wide Operating Voltage Range: 3.3V to 5V compatibility supports both modern low-power and legacy 5V microcontroller systems
- Compact Form Factor: Small PCB footprint with standard pin headers facilitates integration into space-constrained IoT devices and wearables
Applications and Use Cases
- Agricultural IoT Monitoring: Deploy soil moisture, temperature, and humidity sensors across large farm areas with kilometer-range wireless coverage, eliminating the need for wired infrastructure or cellular subscriptions
- Industrial Asset Tracking: Monitor movement and location of equipment, vehicles, and containers across factory floors and logistics yards using battery-powered LoRa beacons with multi-month operational life
- Smart Metering Networks: Build mesh networks for remote utility meter reading (water, gas, electricity) across urban and rural areas with reliable, low-cost wireless infrastructure
- Environmental Monitoring Stations: Deploy air quality, weather, and radiation monitoring sensors in remote locations with autonomous data transmission to central collection points
- Building Automation and Control: Implement wireless sensor networks for HVAC, lighting, and occupancy monitoring in large facilities where WiFi coverage is unreliable or power-intensive
- Wildlife and Ecosystem Tracking: Monitor animal movement, migration patterns, and habitat conditions using lightweight LoRa collars and ground sensors with minimal battery drain
- Disaster Recovery and Emergency Response: Establish temporary communication networks in areas where traditional infrastructure is damaged, enabling real-time situational awareness during natural disasters
- Home Automation and Smart Home: Create long-range wireless networks for garage door openers, gate controls, and perimeter sensors without relying on internet connectivity
How to Use
Begin by connecting the LoRa RF Module to your microcontroller via UART interface: connect the module's RX pin to the microcontroller's TX pin, TX pin to RX pin, GND to ground, and VCC to 3.3V or 5V power supply (verify your module's voltage rating). Use a serial communication library (SoftwareSerial in Arduino or hardware UART) configured to the module's default baud rate, typically 9600 bps. Most LoRa modules use AT command sets or simple transparent serial protocols where data sent to the module's UART is automatically transmitted over the RF link and received data appears on the UART output. Before deployment, configure critical parameters including the node address, spreading factor (SF), bandwidth, and transmit power using AT commands or a configuration interface provided by your module manufacturer.
For optimal performance, ensure adequate antenna connection using the provided antenna or a compatible 433 MHz antenna with appropriate impedance matching. Position antennas vertically and away from metal structures to maximize range and minimize reflections. When designing your network, remember that higher spreading factors (SF11-SF12) provide greater range but slower data rates and longer air-time, while lower factors (SF7-SF8) enable faster communication but reduced range. Implement error-checking mechanisms at the application layer since LoRa modules may occasionally drop packets in heavily congested RF environments. Always test your complete system with both modules in their intended deployment locations, as real-world range varies significantly based on terrain, building materials, and local RF interference.
Frequently Asked Questions
What is the actual communication range of this 433 MHz LoRa module?
The communication range depends on several factors including spreading factor, bandwidth, transmit power, antenna quality, and environmental conditions. In open-field line-of-sight conditions with optimal settings (SF12, 125 kHz bandwidth, 20 dBm power), ranges exceeding 10 kilometers are achievable. In typical urban environments with buildings and obstacles, expect 2-3 kilometers range. Indoor range through multiple walls is typically 100-500 meters depending on wall materials. Always conduct range testing in your specific deployment environment to validate coverage before full-scale deployment.
Can I use multiple LoRa modules to create a mesh network?
Yes, LoRa modules can be networked together, but standard LoRa operates in broadcast mode rather than true mesh networking. You can implement multi-hop functionality at the application layer by programming intermediate nodes to receive and retransmit messages. Alternatively, use LoRaWAN protocol implementations that support gateway-based networks with automatic routing. For simple point-to-point or point-to-multipoint applications, standard LoRa modules work excellently without additional mesh complexity.
How long will the battery last with this module in a remote sensor application?
Battery life depends on duty cycle, transmission frequency, and spreading factor used. A sensor transmitting one 50-byte message every 10 minutes using SF10 at 20 dBm power consumes approximately 50-100 mA during transmission (lasting 1-2 seconds) and less than 1 microampere in sleep mode. This results in roughly 2-3 years of operation on a standard 2000 mAh battery. By reducing transmission frequency or using lower spreading factors, battery life can extend to 5+ years. Calculate your specific scenario using the module's current consumption specifications and your transmission profile.
Is this module legal to use in India without licensing?
The 433 MHz ISM band is license-free in India under WPC regulations for low-power applications. However, verify that your specific application and transmit power comply with current Indian Wireless Telegraphy Act regulations. Industrial and scientific equipment in the 433 MHz band typically requires adherence to maximum EIRP (Effective Isotropic Radiated Power) limits. For commercial deployments, consult with WPC (Wireless Planning Commission) or your local regulatory authority to ensure full compliance.
When will I receive my order?
Orders are dispatched within 1-5 business days from our Bengaluru warehouse. Delivery takes 7-8 days to most locations across India.
What is your return and warranty policy?
We offer a 7-day return policy on manufacturing defects only. Contact support within 7 days of receipt for free replacement or full refund. Not applicable for user damage or misuse.
Are bulk discounts available?
Yes, wholesale pricing for orders of 10 or more units. Contact our sales team via WhatsApp or email for a customized bulk quote.
Why Buy from The Engineer Store
- Genuine Products: Sourced directly from authorized distributors with authentication
- Expert Team: Our technical team validates every product before listing
Buy Long Range LORA RF Module Transceiver 433 MHz Frequency Online in India
Purchase the Long Range LORA RF Module Transceiver 433 MHz Frequency online at The Engineer Store, India's trusted source for genuine electronics. We deliver across Bengaluru, Mumbai, Delhi, Chennai, Hyderabad, Pune, Kolkata, Ahmedabad, Jaipur, and Surat.
Our team in Bengaluru is available 24/7 to support your journey from product selection to project completion.
Long Range LORA RF Module Transceiver 433 MHz Frequency
The Long Range LORA RF Module Transceiver operating at 433 MHz frequency is a wireless communication module designed for extended-range, low-power IoT applications and remote sensing projects. Professional engineers and IoT developers utilize this module for building mesh networks, telemetry systems, and autonomous sensor networks where traditional WiFi and cellular connectivity are impractical or power-prohibitive. This transceiver solves the critical challenge of achieving kilometer-range wireless communication with minimal power consumption, making it ideal for battery-powered remote monitoring stations, agricultural sensors, and industrial automation systems operating in areas with limited infrastructure.
Product Overview
The Long Range LORA RF Module Transceiver operates on the 433 MHz ISM band, utilizing LoRa (Long Range) modulation technology to achieve extended communication range while maintaining ultra-low power consumption. Unlike traditional RF modules that sacrifice range for power efficiency, this transceiver implements spread spectrum modulation with configurable spreading factors, allowing users to optimize the trade-off between range and data rate based on specific application requirements. The module communicates via serial UART interface, making integration with microcontrollers like Arduino, ESP32, and STM32 straightforward, while the 433 MHz frequency provides excellent propagation characteristics in both urban and rural environments with minimal atmospheric absorption.
This LoRa transceiver module features a highly sensitive receiver capable of detecting signals at -140 dBm or better, enabling communication ranges exceeding 10 kilometers in open-field conditions and 2-3 kilometers in urban environments with obstacles. The transmit power is typically configurable from 5 dBm to 20 dBm, allowing developers to balance range requirements with power budget constraints. Built-in error correction and forward error correction (FEC) mechanisms ensure reliable data transmission even in noisy RF environments, while the compact form factor and low operating voltage (typically 3.3V to 5V) make it suitable for portable and battery-powered applications. The module's transparent serial communication protocol eliminates the need for complex RF programming knowledge, making it accessible to embedded systems engineers of all experience levels.
Key Specifications
| Specification | Details |
| Product Type | LoRa RF Module Transceiver |
| Frequency Band | 433 MHz ISM Band |
| Modulation Type | LoRa (Long Range) Spread Spectrum |
| Communication Range | 10+ km open field, 2-3 km urban environment |
| Receiver Sensitivity | -140 dBm typical |
| Transmit Power | 5 dBm to 20 dBm configurable |
| Data Rate | 0.3 kbps to 50 kbps depending on spreading factor |
| Interface | UART Serial (TTL level) |
| Operating Voltage | 3.3V to 5V DC |
| Current Consumption | Transmit: 120 mA, Receive: 15 mA, Sleep: less than 1 uA |
| Spreading Factors | SF7 to SF12 selectable |
| Bandwidth | 125 kHz, 250 kHz, 500 kHz options |
| Origin | Original/Authentic |
| Warranty | 7 days on manufacturing defects |
| Shipping | 1-5 days from Bengaluru |
| Delivery | 7-8 days across India |
| Support | 24/7 via Email and WhatsApp |
Key Features
- Extended Communication Range: Achieves 10+ kilometers in open-field conditions using LoRa modulation, eliminating the need for multiple relay nodes in many applications
- Ultra-Low Power Consumption: Sleep mode current below 1 microampere enables multi-year battery operation in remote sensor deployments
- Configurable Spreading Factors: Selectable SF7 through SF12 allows real-time optimization between range and throughput based on environmental conditions
- Transparent Serial Interface: UART communication simplifies integration with any microcontroller without requiring RF expertise or complex firmware
- Multiple Bandwidth Options: 125 kHz, 250 kHz, and 500 kHz bandwidth settings enable fine-tuning for specific interference environments
- Forward Error Correction: Built-in FEC ensures reliable data transmission in noisy RF environments typical of industrial and outdoor applications
- Wide Operating Voltage Range: 3.3V to 5V compatibility supports both modern low-power and legacy 5V microcontroller systems
- Compact Form Factor: Small PCB footprint with standard pin headers facilitates integration into space-constrained IoT devices and wearables
Applications and Use Cases
- Agricultural IoT Monitoring: Deploy soil moisture, temperature, and humidity sensors across large farm areas with kilometer-range wireless coverage, eliminating the need for wired infrastructure or cellular subscriptions
- Industrial Asset Tracking: Monitor movement and location of equipment, vehicles, and containers across factory floors and logistics yards using battery-powered LoRa beacons with multi-month operational life
- Smart Metering Networks: Build mesh networks for remote utility meter reading (water, gas, electricity) across urban and rural areas with reliable, low-cost wireless infrastructure
- Environmental Monitoring Stations: Deploy air quality, weather, and radiation monitoring sensors in remote locations with autonomous data transmission to central collection points
- Building Automation and Control: Implement wireless sensor networks for HVAC, lighting, and occupancy monitoring in large facilities where WiFi coverage is unreliable or power-intensive
- Wildlife and Ecosystem Tracking: Monitor animal movement, migration patterns, and habitat conditions using lightweight LoRa collars and ground sensors with minimal battery drain
- Disaster Recovery and Emergency Response: Establish temporary communication networks in areas where traditional infrastructure is damaged, enabling real-time situational awareness during natural disasters
- Home Automation and Smart Home: Create long-range wireless networks for garage door openers, gate controls, and perimeter sensors without relying on internet connectivity
How to Use
Begin by connecting the LoRa RF Module to your microcontroller via UART interface: connect the module's RX pin to the microcontroller's TX pin, TX pin to RX pin, GND to ground, and VCC to 3.3V or 5V power supply (verify your module's voltage rating). Use a serial communication library (SoftwareSerial in Arduino or hardware UART) configured to the module's default baud rate, typically 9600 bps. Most LoRa modules use AT command sets or simple transparent serial protocols where data sent to the module's UART is automatically transmitted over the RF link and received data appears on the UART output. Before deployment, configure critical parameters including the node address, spreading factor (SF), bandwidth, and transmit power using AT commands or a configuration interface provided by your module manufacturer.
For optimal performance, ensure adequate antenna connection using the provided antenna or a compatible 433 MHz antenna with appropriate impedance matching. Position antennas vertically and away from metal structures to maximize range and minimize reflections. When designing your network, remember that higher spreading factors (SF11-SF12) provide greater range but slower data rates and longer air-time, while lower factors (SF7-SF8) enable faster communication but reduced range. Implement error-checking mechanisms at the application layer since LoRa modules may occasionally drop packets in heavily congested RF environments. Always test your complete system with both modules in their intended deployment locations, as real-world range varies significantly based on terrain, building materials, and local RF interference.
Frequently Asked Questions
What is the actual communication range of this 433 MHz LoRa module?
The communication range depends on several factors including spreading factor, bandwidth, transmit power, antenna quality, and environmental conditions. In open-field line-of-sight conditions with optimal settings (SF12, 125 kHz bandwidth, 20 dBm power), ranges exceeding 10 kilometers are achievable. In typical urban environments with buildings and obstacles, expect 2-3 kilometers range. Indoor range through multiple walls is typically 100-500 meters depending on wall materials. Always conduct range testing in your specific deployment environment to validate coverage before full-scale deployment.
Can I use multiple LoRa modules to create a mesh network?
Yes, LoRa modules can be networked together, but standard LoRa operates in broadcast mode rather than true mesh networking. You can implement multi-hop functionality at the application layer by programming intermediate nodes to receive and retransmit messages. Alternatively, use LoRaWAN protocol implementations that support gateway-based networks with automatic routing. For simple point-to-point or point-to-multipoint applications, standard LoRa modules work excellently without additional mesh complexity.
How long will the battery last with this module in a remote sensor application?
Battery life depends on duty cycle, transmission frequency, and spreading factor used. A sensor transmitting one 50-byte message every 10 minutes using SF10 at 20 dBm power consumes approximately 50-100 mA during transmission (lasting 1-2 seconds) and less than 1 microampere in sleep mode. This results in roughly 2-3 years of operation on a standard 2000 mAh battery. By reducing transmission frequency or using lower spreading factors, battery life can extend to 5+ years. Calculate your specific scenario using the module's current consumption specifications and your transmission profile.
Is this module legal to use in India without licensing?
The 433 MHz ISM band is license-free in India under WPC regulations for low-power applications. However, verify that your specific application and transmit power comply with current Indian Wireless Telegraphy Act regulations. Industrial and scientific equipment in the 433 MHz band typically requires adherence to maximum EIRP (Effective Isotropic Radiated Power) limits. For commercial deployments, consult with WPC (Wireless Planning Commission) or your local regulatory authority to ensure full compliance.
When will I receive my order?
Orders are dispatched within 1-5 business days from our Bengaluru warehouse. Delivery takes 7-8 days to most locations across India.
What is your return and warranty policy?
We offer a 7-day return policy on manufacturing defects only. Contact support within 7 days of receipt for free replacement or full refund. Not applicable for user damage or misuse.
Are bulk discounts available?
Yes, wholesale pricing for orders of 10 or more units. Contact our sales team via WhatsApp or email for a customized bulk quote.
Why Buy from The Engineer Store
- Genuine Products: Sourced directly from authorized distributors with authentication
- Expert Team: Our technical team validates every product before listing
Buy Long Range LORA RF Module Transceiver 433 MHz Frequency Online in India
Purchase the Long Range LORA RF Module Transceiver 433 MHz Frequency online at The Engineer Store, India's trusted source for genuine electronics. We deliver across Bengaluru, Mumbai, Delhi, Chennai, Hyderabad, Pune, Kolkata, Ahmedabad, Jaipur, and Surat.
Our team in Bengaluru is available 24/7 to support your journey from product selection to project completion.