RK-WI.232EUR-R Radiotronix, RK-WI.232EUR-R Datasheet

RF Modules & Development Tools DEVELOPMENT KIT

RK-WI.232EUR-R

Manufacturer Part Number
RK-WI.232EUR-R
Description
RF Modules & Development Tools DEVELOPMENT KIT
Manufacturer
Radiotronix
Datasheet

Specifications of RK-WI.232EUR-R

Silicon Manufacturer
Radiotronix
Silicon Core Number
WI.232EUR-R
Kit Application Type
Wireless Connectivity
Application Sub Type
Embedded Radio Module
Kit Contents
2x Brds/Mod/Ant, CD, Cable, Docs, Batt
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
RK-WI232EUR-R
Wi.232EUR User’s Manual
European 868-870MHz Band Version
Rev 1.6
905 Messenger Lane
Moore, OK 73160
405-794-7730
© 2003-2007 Radiotronix Inc, all rights reserved
- i –

Related parts for RK-WI.232EUR-R

RK-WI.232EUR-R Summary of contents

Page 1

... Wi.232EUR User’s Manual European 868-870MHz Band Version Rev 1.6 905 Messenger Lane Moore, OK 73160 405-794-7730 © 2003-2007 Radiotronix Inc, all rights reserved - i – ...

Page 2

... Document Control Created By Tom Marks Engineering Review Marketing Review Approved - Engineering Approved - Marketing Revision Author Date 1.0.1 TRM 12/9/2003 1.5.0 TRM 3/12/2005 1.6 TRM 1/22/2007 12/15/04 Description Document Created, Preliminary Document modified to match initial release. Channel tables changed substantially to match regulatory ...

Page 3

... Command mode for volatile and non- volatile configuration • 48-bit unique address • 5 volt tolerant I/O • Under $20 in production quantities • 915MHz U.S. version available • Industrial/Home Automation • RFID • Wireless Sensors • Remote Data Logging © 2003-2007 Radiotronix Inc. UART ANALOG IN DIGITAL I/O 2 ...

Page 4

... Power Mode .................................................................................................................... 16 8.2.1. Wideband Mode....................................................................................................... 16 8.2.2. Narrowband Mode ................................................................................................... 17 8.3. UART Data Rate ............................................................................................................. 17 8.4. Network Mode ................................................................................................................. 18 8.5. Transmit Wait Timeout .................................................................................................... 18 8.6. Network Group ................................................................................................................ 18 8.7. CRC Control.................................................................................................................... 18 8.8. UART minimum transmission unit................................................................................... 19 8.9. Verbose mode................................................................................................................. 19 8.10. CSMA enable .............................................................................................................. 19 8.11. Sleep control................................................................................................................ 19 8.12. MAC Address .............................................................................................................. 20 8 ...

Page 5

... Table of Figures Figure 1: Wi.232EUR Block Diagram .............................................................................................. 2 Figure 2: WiSE Block Diagram ........................................................................................................ 5 Figure 3: Wi.232EUR Networking Concept ..................................................................................... 6 Figure 4: RX State Machine ............................................................................................................ 8 Figure 5: TX State Machine............................................................................................................. 9 Figure 7: Pin-out diagram .............................................................................................................. 10 Figure 8: Module Mechanical Drawings ........................................................................................ 11 Figure 9: Wi.232EUR/Wi.232DTS Suggested Footprint ............................................................... 12 Figure 10: Evaluation Module Circuit............................................................................................. 13 Figure 11: Command and CMD Pin Timing .................................................................................. 22 Figure 12: Command Conversion Code ...

Page 6

... RS-232/422/485 applications. NOTE: Although the module is capable of supporting the typical serial communications required by RS-232, RS-422, and RS-485 networks not compatible with the electrical interfaces for these types of networks. The module has CMOS inputs and outputs and would require an appropriate converter for the particular type of network it is connected to. Wi.232EUR User’ ...

Page 7

... Figure 3: Wi.232EUR Networking Concept The module is designed to interface directly to a host UART. Three signals are used to transfer data between the module and the host UART: TXD, RXD, and CTS. TXD is the data output from the module RXD is the data input to the module. CTS is an output that indicates the status of the module’ ...

Page 8

... UART for processing. The modules only implement the ISO reference network stack up to the MAC layer, so they are transparent to link layer addressing schemes. Therefore, the modules can work with any link-layer and higher protocols in existing today ...

Page 9

... However, modules that are not configured in the same way will not be able to communicate reliably, causing poor performance or outright failure of the wireless link. All modules in a network must have the same mode configuration to ensure interoperability. Every Wi.232 module has read-only internal registers that contain factory programmed information that includes calibration data and a 48-bit MAC address that can be used by the host application for higher level, connection oriented protocols ...

Page 10

... The command line must remain low for a minimum of 600ms after the resetting the module. Once the command line is released, the module will be operating at factory defaults. Wi.232EUR User’s Manual IDLE MODE © 2003-2007 Radiotronix Inc. 9 ...

Page 11

... Ground 16 Ground 17 Ground 18 Ground 19 VCC – 2.7 to 3.6 VDC Table 1, Module Pin Descriptions Legend Signals that are used in this implementation Signals not used in this implementation –do not connect Signals used for in-system programming Wi.232EUR User’s Manual © 2003-2007 Radiotronix Inc. 10 ...

Page 12

... Mechanical Drawings Figure 7: Module Mechanical Drawings Wi.232EUR User’s Manual © 2003-2007 Radiotronix Inc. 11 ...

Page 13

... Figure 8: Wi.232EUR/Wi.232DTS Suggested Footprint Wi.232EUR User’s Manual © 2003-2007 Radiotronix Inc. 12 ...

Page 14

... LDO regulator for the module, and/or by separating the grounds for the module and the other circuits. 7.6. UART Interface The UART interface is very simple comprised of four CMOS compatible digital lines. Wi.232EUR User’s Manual © 2003-2007 Radiotronix Inc. 13 ...

Page 15

... Table 2, Wi.232EUR UART Interface Lines 7.7. Antenna The module is designed to work with any 50-ohm antenna, including PCB trace antennas. We are often asked: “What is the best antenna to use with your module?” Actually, the selection of an antenna is based on a particular application, not the module used. ...

Page 16

... R/W R/W R/W RES regNVRXCHAN (0x01) R/W R/W R/W RES The Wi.232EUR supports 2 channels (0 – wideband mode and 6 channels (0 – narrowband mode. Wi.232EUR User’s Manual R/W R/W R R/W R/W R © 2003-2007 Radiotronix Inc. regTXCHAN (0x4B) R/W R regRXCHAN (0x4C) R/W R ...

Page 17

... Table 3, Channel Table Transmit and receive channels are set in regTXCHAN (addr 0x4B) and regRXCHAN (addr 0x4C) respectively. All modules in a network must be in the same mode (narrowband or wideband) and must have the same transmit and receive channels programmed in order to communicate properly. 8.2. ...

Page 18

... You can either try every possible baud rate to discover the setting, or force a power-on reset with CMD held low to set the baud rate to its default: 2.4kbit/second. Wi.232EUR User’s Manual R/W R/W R/W RES RES BR2 4 3 BR0 © 2003-2007 Radiotronix Inc. regDATARATE (0x4E) R/W R/W BR1 BR0 ...

Page 19

... Modules can be grouped into networks. Although only modules with the group ID will be able to talk to each other, modules in different groups but on the same channel will still coordinate transmissions through the CSMA mechanism. Valid values for this register are 0 to 127. The default group setting is 0 ...

Page 20

... UART in a row or perform a hard reset. If four 0xFF bytes are used to wake the module, the fifth character sent to the UART will be transmitted over the RF link. Upon Wi.232EUR User’s Manual R/W R/W R R/W R/W R R/W R/W R R/W R/W R © 2003-2007 Radiotronix Inc. regUARTMTU (0x54) R/W R R/W R regCSMAMODE (0x56) R/W R regSLPMODE (0x58) R/W R ...

Page 21

... These registers make a unique 48-bit MAC address. These values are factory preset and cannot be altered. These address bytes are not used by the module. They are provided for customer applications as a unique address. Wi.232EUR User’s Manual R/W R/W R © 2003-2007 Radiotronix Inc. N N/A R/W R ...

Page 22

... ACK byte is received by your application) will not adversely affect the module Wi.232EUR User’s Manual Volatile Read/Write Registers Description Transmit channel setting Receive channel setting Operating mode settings UART data rate Network mode (Normal or Slave) Transmit wait timeout Network group ID Enable/Disable CRC Minimum transmission unit. Enable/disable CSMA Power state of module Description These registers form the unique 48-bit MAC address ...

Page 23

... It is also assumed that the *dest buffer has enough space for the two header characters plus, the encoded command, and the null terminator. Wi.232EUR User’s Manual © 2003-2007 Radiotronix Inc. 22 ...

Page 24

... Loss of important configuration information could occur if the unit loses power during a non-volatile write cycle. Byte 0 Byte 1 Byte 2 Header Size Register 0xFF 0x02 0 Register Table 9, Write Register Command, value to be written is less than 128 (0x80). Wi.232EUR User’s Manual This The size Byte 3 Value 0 Value © 2003-2007 Radiotronix Inc. 23 ...

Page 25

... If the register number is invalid, it will respond with a NACK (0x15). Byte 0 Byte 1 Byte 2 ACK Register Value 0x06 0 Register Value Table 12, Read Register Module Response for a Valid Register Wi.232EUR User’s Manual Byte 3 Byte 4 Escape Value Lower 7 bits 0xFE 0 of Value Byte 3 Register 0 Register © 2003-2007 Radiotronix Inc. 24 ...

Page 26

... Variable -102 -106 -104 -107 -40 50 -65 -48 600 200 © 2003-2007 Radiotronix Inc. Units Notes MHz At antenna pin kHz kHz dBm 115200 baud UART dBm 2400 baud UART dBm 9600 baud UART dBm 2400 baud UART dBm Flo+1MHz and Flo+1 ...

Page 27

... Vcc 0 .4 © 2003-2007 Radiotronix Inc. Units Notes MHz ppm 869.05 MHz @ 25°C kHz kHz dBm 869.05 MHz Into 50 ohm load dBm 869.05 MHz Into 50 ohm load Ohms ...

Page 28

... Flash Specifications (Non-Volatile Registers) Parameter Flash Write Duration Flash Write Cycles Table 17, Flash Specifications (Non-Volatile Registers) Wi.232EUR User’s Manual Min Typ. Max 16 21 20k 100k © 2003-2007 Radiotronix Inc. Units Notes ms Module stalled during write operation Cycles 27 ...

Page 29

... Contact Us 13.1. Technical Support Radiotronix has built a solid technical support infrastructure so that you can get answers to your questions when you need them. Our primary technical support tools are the support forum and knowledge base found on our website. We are continuously updating these tools. To find the latest information about these ...

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