Quatech 802.11B/G manual Digital Uart Ports, Ethernet PHY Port, Uart Pin Definition

Page 13

Airborne Enterprise Module Databook

Quatech, Inc.

 

 

5.1Digital UART Ports

The units supports two digital UART ports, use of these ports is determined by the device type choice made in firmware. The details of the ports can be seen in Table 3.

The availability of UART2 for these device types is selected in firmware.

Table 3 - UART Pin Definition

 

Device Type

 

 

 

UART

 

 

 

Serial

 

 

 

All

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Pin Definition

UART1

UART2

UART1

UART2

Debug

Pin

Pin

Pin

Pin

 

 

Data out (DOUT)

28

21

28

21

6

Data In (DIN)

24

9

24

9

8

 

 

 

 

 

 

Clear-to-Send (CTS)

12

19

12

 

 

 

 

 

 

 

 

Ready-to-Send (RTS)

18

17

18

 

 

 

 

 

 

 

 

Transmit Enable (/TXEN)

 

 

17

 

 

 

 

 

 

 

 

Receive Enable (/RXEN)

 

 

19

 

 

 

 

 

 

 

 

Serial Mode (SER_MOD)

 

 

22

 

 

The primary UART supports a 4-wire interface; the secondary port supports 4- wire interface except when being used with the Serial Device type, in which case it is reduced to a 2-wire only.

The primary digital UART can be used as the primary connection for the Serial device type. This type supports a 7-wire interface to allow the definition of the serial interface type (RS232/3422/485) and the data transfer direction. Definitions of this interface can be seen in Table 3.

The UART1 and UART2 interfaces support the following configurations:

BAUD: 300, 600, 1200, 2400, 4800, 9600, 14400, 19200, 28800, 38400, 57600, 115200, 230400, 460800, 921600

Flow Control: None, Hardware (CTS/RTS), Software (XON/XOFF)

Default settings: 9600, 8, N, 1, No Flow Control.

5.2Ethernet PHY Port

A 10/100 Ethernet PHY interface is supported when the Ethernet device type is selected in firmware. This interface is a 10/100Mbps interface that supports auto negotiation and cross-over cabling. The interface also supports both half and full duplex for 10Mbps and 100Mbps.

The interface uses a Broadcom BCM5241A Ethernet PHY, please refer to the manufacturers datasheet for interface details and appropriate design guidelines.

100-8080-110

8/11/2009

13

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Contents Product Specification Airborne Enterprise Module Databook Quatech, Inc. Headquarters Quatech ConfidentialAirborne Enterprise Module Databook Contents Figures Terminology ConventionsFile Format WLNG-AN-DP500 Module Example Product DescriptionWLNG-SE/SP/AN/ET-DP500 Block Diagram Block DiagramModel Numbers Model NumbersModule Pin Definition Pin out and ConnectorsGpio CTS2 Uart Ethernet PHY Port Digital Uart PortsUart Pin Definition Debug/Console Port Serial Peripheral Interface SPIGeneral Purpose Input/Output Gpio RF Shield Connector DefinitionOperating Conditions & DC Specification Electrical & RF SpecificationSymbol Parameter Min Typ Max Units Absolute Maximum Values1Transmitting @ 11Mb/s 10/100 100% Duty Cycle Symbol Parameter Rate Mb/s Min Average Peak Units DBm / mW RF Characteristics 802.11b/gBand Region Freq Range No. Channels GHz Band Supported Data Rates Mb/sTransmit Power Performance/Range AC Electrical Characteristics TransmitterRadio Typical Performance Range Typical Outdoor DistanceSPI Interface SPI AC CharacteristicsUART2 Pin Debug Pin Definition DescriptionSPI Read/Write Timing SPI ProtocolSPI Command Description SPI CommandsCommand Name Description Hex Tx Message HeaderIntena Antenna Selection AntennaHost Board Mounted Antenna Host Chassis Mounted Antenna Antenna Type Features Cost Size Availability PerformanceEmbedded Antenna Embedded Antenna OptionsAntenna Location Performance Airborne Enterprise Module Databook Symbol Parameter Reset FunctionBoard Connector DF12-36DP-0.5VXX Hirose Radio Connector DF12-36DS-0.5VXX HiroseRF Connector Mechanical OutlineFCC Statement Certification & Regulatory ApprovalsFCC RF Exposure Statement Information for Canadian Users IC NoticeCountry Standard 11.4 FCC/IOC Modular ApprovalRegulatory Test Mode Support Mechanical Approvals Physical & Environmental ApprovalsTest Reference Conditions Date Section Change Description Author Change Log

802.11B/G specifications

Quatech 802.11B/G is a versatile wireless communication solution that has gained recognition for its reliability and performance in various industrial applications. Designed primarily for the industrial automation sector, this product offers robust connectivity and data transmission capabilities over Wi-Fi networks.

One of the standout features of the Quatech 802.11B/G is its compliance with the IEEE 802.11b and 802.11g standards. This ensures compatibility with a wide range of devices, enabling seamless integration into existing networks. The device supports data rates of up to 54 Mbps in the 802.11g mode, which is essential for applications that require quick and efficient data transfer.

In terms of technology, Quatech employs advanced wireless communication protocols that ensure a stable connection and minimize data loss. This is particularly important in industrial settings, where interruptions can result in costly downtime. The device utilizes error correction and encryption techniques to maintain the integrity and security of data being transmitted over the air.

Another important characteristic of the Quatech 802.11B/G is its operational range. The device can maintain a reliable connection across a significant distance, depending on the environmental conditions. This feature is crucial for applications that involve monitoring and control in large facilities, warehouses, or outdoor settings.

Power consumption is another critical aspect of the Quatech 802.11B/G design. The device is engineered for energy efficiency, making it suitable for applications where power resources may be limited. This feature allows for extended operational life in battery-powered devices without sacrificing performance.

The Quatech 802.11B/G is also equipped with multiple interfaces, including serial and Ethernet ports, facilitating easy connectivity with a wide array of devices. This versatility supports integration with various industrial equipment, sensors, and controllers, making the device highly adaptable to different environments.

Furthermore, the Quatech 802.11B/G is designed with durability in mind. It is built to withstand harsh conditions typical of industrial settings, ensuring long-lasting functionality and reducing the need for frequent maintenance or replacements.

In conclusion, the Quatech 802.11B/G offers a reliable and efficient wireless connectivity solution for industrial applications. Its compliance with industry standards, advanced communication protocols, extensive operational range, energy efficiency, and robust design make it a preferred choice for businesses looking to enhance their operational capabilities.