First Components. Wireless & IOT

Comprehensive multi-protocol wireless solution including 802.11 b/g/n, dual-mode Bluetooth 5...

Wi-Fi is a wireless networking technology based on the IEEE 802.11 standard, enabling computers, mobile devices, and other electronic systems to exchange data without the need for physical wires or cables. Implementing various protocols defined by the IEEE 802.11 standard, along with necessary machine-to-machine (M2M) communication protocols, Wi-Fi offers a primary solution for convenience, cost efficiency, and seamless integration with other network infrastructures and components.

- Embedded Wi-Fi/Bluetooth Module
Embedded Wi-Fi/Bluetooth modules that comply with single-spatial stream IEEE 802.11 b/g/n standards support concurrent Wi-Fi and Bluetooth 5 operations. These modules are designed for devices equipped with microcontroller units (MCUs), prioritizing power efficiency, and enabling the coexistence of multiple wireless protocols, such as MQTT and HTTP, to easily establish IoT connectivity.

- Mini PCIe/M.2 Wi-Fi Card
Mini PCIe/M.2 PCIe/M.2 Wi-Fi cards offer a comprehensive multi-protocol wireless connectivity solution, supporting 802.11 a/b/g/n (2.4 GHz & 5 GHz), 802.11j, and dual-mode Bluetooth® 5 through a USB2.0 HS interface. These cards are built to industrial-grade standards, making them suitable for Linux-based systems and widely used in industrial PC (IPC) applications.

- Sub 1G 802.11 ah Halow® Wi-Fi Module
Wi-Fi HaLow® refers to devices utilizing IEEE 802.11 ah technology. Operating in frequency bands below 1 GHz, this technology enables extended transmission ranges and higher data throughput. It provides reliable connectivity in challenging environments, ensuring low-power communication for applications such as sensor networks and wearable devices, with improved ability to penetrate walls and other obstacles.

Model Name	Wireless Standard	Frequency	Interface	Voltage	Antenna	Dimension	Controller Unit
RYWB116	IEEE 802.11 b/g/n	2.4GHz	UART/SPI	3.3V	Internal	16.7132.2mm	MCU
RYWB117	IEEE 802.11 b/g/n	2.4GHz	UART/SPI	3.3V	External	13122.2mm	MCU
RYWDB00	IEEE 802.11 a/b/g/n IEEE 802.11j (hosted mode)	2.4GHz/5GHz	USB2.0	3.3V	External	50.95*30mm Full/Half Mini PCIe Card	Linux OS
RYWDB02	IEEE 802.11 a/b/g/n IEEE 802.11j (hosted mode)	2.4GHz/5GHz	USB2.0	3.3V	External	42*30mm M.2 Card	Linux OS
RYW7293	IEEE 802.11ah Halow®	868MHz	UART/SPI	3.3V	External	21212.4mm	MCU/Linux OS

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BlueTooth

Fast and easy connection with smartphones and all sorts of Bluetooth devices...

Bluetooth is a wireless communication standard that allows electronic devices to exchange data over short distances, forming a personal area network (PAN). By using short-baud, high-frequency radio waves within the ISM frequency band, Bluetooth-enabled devices can automatically detect and connect to each other, and disconnect when the devices move too far apart. By integrating Bluetooth firmware with a UART interface, users can easily control the module through AT commands.

- General Purpose Bluetooth® Module
General-purpose Bluetooth modules are commonly used in applications such as mobile phone connections, data transmission, and remote monitoring/control. These modules can operate without an active internet connection and enable data or signal exchange between portable devices or electronic devices within a short range.

- Long-Range Bluetooth® Module
Long-range Bluetooth modules feature high power output and superior sensitivity. Supporting a special long-range mode, these modules can achieve transmission distances of up to 300-500 meters, making them suitable for long-range applications such as smart lighting control and vehicle monitoring.

- Bluetooth® Dual-Mode Module
Bluetooth dual-mode modules support both Bluetooth 2.0 BR/EDR and Bluetooth Low Energy (BLE). These modules offer the advantage of low power consumption for connecting and controlling various devices, while Bluetooth Classic is used for applications requiring high data rates.

Model Name	RF Out Put Power	RF Sensitivity	Bluetooth® Version	AT Command	Internal Antenna	Dimension	Certification
RYB080I	5dBm	-97dBm	BLE 4.2＆5.0	YES	YES	11112.2mm	FCC, NCC, MIC
RYB2340	8dBm	-102dBm	BLE 5.3	NO	YES	16.7132.2mm
RYBG210	20dBm	-104.9dBm	BLE 5.2	YES	No, External Antenna	118.32.2mm
RYBG211	20dBm	-104.9dBm	BLE 5.2	YES	YES	23.78.32.2mm
RYB5510	10dBm	-97.5dBm	BLE5.4, Thread®, Matter®, Zigbee® and Proprietary		YES	16.7132.2mm

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LoRa

High performance and sensitivity LoRa module with Antenna. Low power long distance...

LoRa® (Long-Range) LoRa® (Long-Range) is a spread spectrum modulation technique designed for Low Power Wide Area Networks (LPWAN), offering features such as long-range communication, low power consumption, and secure data transmission for wireless applications. LoRa® provides a wider range than cellular networks, making it ideal for low-cost, battery-operated applications that can be easily integrated into various infrastructures.

- Proprietary LoRa®
Proprietary LoRa® modules are built with custom protocols, allowing developers to enter the market before standards are fully established. These modules are well-suited for small-scale and private network deployments

- LoRaWAN®
LoRaWAN® is a set of protocol standards based on the LoRa® physical layer transmission technology. Its core components include gateways and nodes. By connecting to a large number of standard nodes, a LoRaWAN® gateway enables developers to quickly establish ultra-long-range wireless networks with minimal infrastructure.

- Pure Hardware LoRa
Pure hardware LoRa® modules provide the flexibility for developers to write custom firmware into the module’s MCU, tailored to specific project requirements. This solution is ideal for those needing adaptability in their development processes.

Model Name	Frequency Range	RF Output Power	RF Sensitivity	LoRaWAN® or LoRa® Proprietary	AT Command
RYLR330	862~1020MHz	26dBm	-139dBm	LoRaWAN® Gateway	No, OS Platform
RYLR998	820~960MHz	22dBm	-129dBm	Proprietary	YES
RYLR498	410~525MHz	22dBm	-129dBm	Proprietary	YES
RYLR993	820~960MHz	22dBm	-148dBm	LoRaWAN® or Proprietary	YES
RYLR896	862~1020MHz	15dBm	-148dBm	Proprietary	YES
RYLR406	410~525MHz	15dBm	-148dBm	Proprietary	YES
RYLR924	790~960MHz 2400~2500MHz	22dBm 11.5dBm	-144dBm -129dBm	LoRaWAN® or Proprietary	No, Pure Hardware LR1121
RYLR999	2.4GHz BLE 868/915MHz LoRa®	20dBm 30dBm	-104.9dBm -133dBm	BLE and Proprietary	YES

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ISM RF

Monolithic low-IF architecture CMOS FSK/GFSK TRX for wireless applications in the ISM...

Monolithic low-IF architecture CMOS FSK/GFSK TRX for wireless applications in the ISM bands
Sub-1 GHz RF transceiver, 433/868/915MHz, Amiccom A7129 core

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GPS-GNSS

Global Navigation Satellite System (GNSS) is a constellation of satellites...

The Global Navigation Satellite System (GNSS) is a constellation of satellites that transmit positioning and timing data to receivers on Earth, enabling accurate location determination. Global GNSS systems include Europe’s Galileo, the USA’s NAVSTAR Global Positioning System (GPS), Russia’s GLONASS, and China’s BeiDou Navigation Satellite System.

- General Purpose External Antenna Module
External antennas offer greater design flexibility, providing more opportunities to customize the radiation pattern or bandwidth. These antennas do not need to be directly attached to IoT or RF devices and can be positioned in optimal locations at appropriate distances using coaxial cables. They are available in various styles and configurations.

- General Purpose Embedded Antenna Module
Embedded antennas are designed to save space and reduce costs while maintaining good performance. They offer a clean, self-contained package with no external attachments, making them ideal for compact devices that require high-performance standards while adhering to strict size constraints.

- Dual-Band GNSS (L1/L5) Module
The dual-band GNSS module operates on multiple frequencies, enhancing positioning accuracy by providing consistent track logs. By receiving signals on more than one frequency from each satellite, it reduces the impact of environmental interference, making it particularly effective in complex environments.

- UDR (Untethered Dead Reckoning) Module
UDR is a method of continuous navigation that uses sensors to calculate the distance traveled from a known position. It estimates the current location by combining speed, heading, and elapsed time. UDR is particularly useful in environments where GNSS signals are obstructed, such as buildings, tunnels, and underground parking lots, where positioning accuracy is typically reduced.

Model Name	GNSS	Interface	Voltage	Antenna	Dimension
RYS8833	GPS+Glonass or GPS+Beidou	UART/I2C	1.8V	External	1182.2mm
RYS8830	GPS+Glonass or GPS+Beidou	UART/I2C	1.8V	Internal	11112.2mm
RYS8839	L1/L5 Dual Band multi-constellation	UART/I2C	1.8V	External	1182.2mm
RYS3520	GPS+Glonass+Beidou	UART	3.3V	External	10.19.72.3mm
RYS352A	GPS+Glonass+Beidou	UART	3.3V	Internal	32329mm

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UWB

The principle of UWB (Ultra-wideband) is to use Time of Flight (ToF)...

The principle of UWB (Ultra-wideband) is to use Time of Flight (ToF) for precise ranging positioning. It is a fast, secure, and low-power radio protocol used to measure distance or determine location with high accuracy compared to other wireless technology. By sending signal at a certain frequency and continuously the time gap between signal sending and receiving with devices in known locations, UWB can accurately calculate the distance between the two points or even accurately calculate the location of the positioning tag through a certain algorithm.

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NFC-RFID

Built-in programming options suitable for wide range of applications...

RFID (Radio Frequency Identification) is a system consisting of a radio transponder, receiver, and transmitter. When an RFID reader emits an electromagnetic interrogation signal, the tag responds by transmitting digital data, typically an identifying inventory number, back to the reader. This technology allows devices to read information contained in a wireless tag from a distance without physical contact or requiring a line of sight. Passive RFID systems use tags powered by the electromagnetic energy from the reader, eliminating the need for internal power sources, making them battery-free and more cost-effective. RFID is widely employed in applications such as supply chain management, human tracking, access control, and smart labels.

- UID Reader RFID Module
The RFID UID Reader module is a fundamental component of all RFID systems, designed to read the unique identifier (UID) of an RFID tag to verify a user's identity and grant access. This module helps designers accelerate project timelines by addressing signal fine-tuning and optimization challenges.

- Memory Block Encryption RFID Module
RFID encryption secures the user data stored on identification tags. With a unique encryption key associated with each tag's identification, only a specific key can be used to encrypt data for storage on the tag or to decrypt it. This enhances security by ensuring that data transfers between tags and trusted readers are encrypted, preventing unauthorized readers from intercepting the information.

- Apple & Google Wallet NFC Module
Replacing traditional physical RFID cards, Apple® Wallet VAS and Google® SmartTap passes function over short distances, allowing users to present contactless passes using only their phones. When the device is near an NFC terminal, the terminal initiates the transaction by requesting the pass, enabling users to easily integrate keys, tickets, gift cards, or loyalty cards with a simple tap. This technology enhances security by encrypting the transaction process and completing it through secure coding.

- UHF RFID Long-Range Reader Module
UHF (Ultra-High Frequency) RFID readers operate in the 840 MHz to 960 MHz frequency band, offering a much longer reading range compared to HF NFC readers. These readers can simultaneously interact with multiple tags, making them ideal for long-range applications such as electronic toll collection (ETC) systems or large-scale inventory management.

Model Name	Interface	Default Baud Rate	Frequency	Protocol	Read Range (REYAX Standard card)	Encryption	OTA	Firmware
RYRR10S	UART/SPI	57600	13.56MHz	ISO15693,ISO14443A/B, and FeliCa®.	4 cm	No	No	Fix
RYRR20I	UART	115200	13.56MHz	ISO15693,ISO14443A/B, and FeliCa®.	4 cm	No	No	standard/customized
RYRR20D	RS-232	19200	13.56MHz	ISO15693,ISO14443A/B, and FeliCa®.	4 cm	No	No	standard/customized
RYRR30I	UART	115200	13.56MHz	ISO18092	8 cm	No	Yes	standard/customized
RYRR30D	+3.3V UART / RS-232 / USB2.0	115200	13.56MHz	ISO15693,ISO14443A/B, and FeliCa®.	8 cm	Apple_®_Wallet_VAS_ Google_®_Smart_Tap_pass	Yes	standard/customized
RYRR50S	UART	19200	13.56MHz	ISO14443A Mifare® DesFire®	5 cm	Yes	TBD	standard/customized
RYRR39U	USB 2.0/UART	115200	840~960MHz	UHF_ISO_18000_6C_ (EPC_Class1_Gen_2)	6~9 M		TBD	standard/customized