XBee USB Multifunction User Manual
Contents
1. Punt p PWM Output 1 reserved Do not connect a area e rr ot a e S e Either Clear to Send Flow Control or Digital 140 7 Output Module Status hdicator P WRF et Vag Reference or AD pts RTS ADB DIOG i Requestto Send Flow Control Analog Input 6 or Digital VO 6 ADS D103 i Analog hput 3 or Digital VO 3 AD2 D102 it Analog hput 2 or Digital 1 0 2 AD1 D101 i 1 Analog hput 1 or Digital VO 1 20 ADO DIO Either Analog hput 0 or Digital 1 0 0 Function isnot supported at the time of this release Design Notes Minimum connections YCC GND DOUT amp DIN Minimum connections for updating firmware YCC GND DIN DOUT RTS amp DTR Signal Direction is specified with respect to the module s Module includes a 50k a pull up resistor attached to RESET s Several of the input pull ups can be configured using the PR command s Unused pins should be left disconnected RnD Warehouse 2010 Page 19 Appendix Table 1 03 Pin Assignments for the XBee USB Multifunctional FTDI P2 and P4 Sockets P2 SKT Pin Name Direction Connected To P2 1 VCC Power Supply 5 VDC P2 2 RXD D1 Input Either FTDI RXD D1 P2 3 TXD DO Output Either FTDI TXD DO P2 4 NC None No Connection P2 5 vccl Power Supply 3 3 VDC P2 6 NC None No Connection P2 7 NC None No Connection P2 8 SGND Signal Ground P2 9 DTR D4 Either FTDI DTR D4 P2 10 GND Ground P4 SKT amp Pin Name Direction Connected To P4 11 R2. G Note Signal Strength Indicators are disabled To enable AD5 DIO5 remove the ASCE 2 pin jumper G Note Associated Status Indicator is disabled How to control Data Acquisition through the local XBee XBee PRO module XBee modules connected to a host computer via the USB interface can be controlled using the AT commands described in the XBee XBee PRO OEM RF Module product manual Refer to this product manual for a complete description of the XBee AT command set How to control Data Acquisition through a remote XBee XBee PRO module A remote XBee XBee PRO module must first be configured for Data Acquisition before actual commands can be sent to acquire data Using API commands we can send AT mode commands to read and write remote data This tutorial Xbee API Commands provides a detailed explanation on configuring and controlling a remote radio The link to this tutorial is located on the product page It is also possible to use the remote XBee XBee PRO module as a RF serial port You could add serial D A s A D s and any devices that have a serial port providing the logic levels are radio compatible 3 3 VDC Device selection can be controlled by the XBee Digital outputs For remote XBee XBee PRO Data Acquisition development an optional AC DC power supply can be purchased to supply power to the remote unit as opposed to USB power The power supply has a Mini B type termination Current is limited to the
3. USB PTC fuse value 500mA Part Number 22 001 ORnD Warehouse 2010 FT232R Using the XBee USB Multifunction Development Tool for FTDI Development The FTDI FT232R is a USB to serial UART interface with optional clock generator output and the new FTDIChip ID security dongle feature In addition asynchronous and synchronous bit bang interface modes are available The FT232R fully integrates an EEPROM Oscillator and USB interface into the device The FTDI 232R operates from the factory in the Normal Mode In the Normal Mode of operation bytes sent to the FT232R through the USB interface are transmitted out serially through the TXD pin Bytes received serially on the RXD pin are transmitted back through the USB interface This device performs asynchronous 7 or 8 bit parallel to serial and serial to parallel conversion of the data on this interface The Baud Rate for the serial interface is determined by an internal Baud Rate Generator Control signals supported in this mode include RTS CTS DSR DTR DCD and RI The UART Controller also provides a transmitter enable control signal pin option TXDEN to assist with interfacing to RS485 devices Additional features in this mode TXLED for pulsing an LED upon USB transmission of data RXLED for pulsing an LED upon receiving USB data PWREN Power control for high power bus powered designs and SLEEP indicates that the device going into USB suspend mode NORMAL MODE C
4. as long as the association between radios remains Ref D If the association is nulled the LED will return to the blinking on off state The radio interface has an additional feature three LED radio signal strength indicators Ref E The LED radio signal strength indicators are three LED s which provide an indication of the RF received signal strength HSS Green LED is an abbreviation for High Signal Strength MSS Yellow LED is an abbreviation for Mid Signal Strength LSS Red LED is an abbreviation for Low Signal Strength An output from the radio RSSI pin 6 is converted to this visual three level bargraph With no signal all LED s will be off With Low Signal Strength the Red LED will be on With Mid Signal Strength the Red and Yellow LED s will be on With High Signal Strength the Red Yellow and Green LEDSS will be on ORnD Warehouse 2010 As received signal strength changes from radio to radio so will this bargragh change These indicators provide a guick means to determine maximum ranges and signal dead zones RF Wireless Development Windows Quick Start Guide 1 Go to the FTDI chip site download the current FTDI Virtual COM port VCP drivers Choose the correct Operating System and Processor Architecture Select the WHQL certified drivers 2 On the FTDI chip site Home Page choose Support choose Documents Choose installation guides download the appropriate installation guide 3 Place and ali
5. networking settings m COM4 96008 N 1 FLOW NONE XB24 Ver 10E6 ORnD Warehouse 2010 The Modem Function Set Version Firmware and command parameters have all been filled in by the scan 10 Press the Down Arrow button on the Version As you can see in our case the current firmware version is highlighted and a new firmware version does exist AD X CTU COMA ge Remote Configuration PC Settings Range Test Terminal Modem Configuration j Modem Parameters and Firmware Parameter View j Profile m Versions Read Write Restore Clear Screen Save Download new JT Always update firmware Show Defaults Load Se Modem XBEE Function Set _ Version XB24 v XBEE 802 15 4 s 10E6 v Networking amp Security Ta Bi C CH Channel 1084 a 3332 1D PAN ID 1041 Bd 0 DH Destination Address High 1042 Bi 0 DL Destination Address Low 1044 Ba 0 MY 16 bit Source Address Lied SH Serial Number High at SL Serial Number Low 10E8 0 MM MAC Mode B 0 AR XBee Retries 0 RN Random Delay Slots B 19 NT Node Discover Time Ba 0 NO Node Discover Options Bi 0 CE Coordinator Enable Bi 1FFE SC Scan Channels Bi 4 SD Scan Duration By 0 41 End Device Association 0 42 Coordinator Association Al Association Indication E 0 EE AES Encryption Enable e Modify networking settings
6. radio The entire USB bus protocol is handled on the chip XBee j ID OUR X FTDI s royalty free Virtual Com Port VCP and D2XX drivers eliminate the requirement for USB driver development Virtual COM port VCP drivers cause the USB device to E appear as an additional COM port available to the PC Application software can access the USB device in the same way as it would access a standard COM port D2XX drivers allow direct access to the USB device through a DLL Application software can access the USB device through a series of DLL function calls The functions available are listed in the D2XX Programmer s Guide The radio interface requires one cmos level asynchronous serial port and two hardware flow control bits The additional two flow control bits are used to provide the maximum RF Data rates between the radio and the USB interface 250 kbs Two LED USB bus traffic indicators are provided TXD and RXD Ref C The indicators indicate the communication status between the USB port and the FT232R These indicators should be blinking when communication is established between the USB port and the FT232R Radio Connection and Signal Strength I ndicators The LED associated status indicator ASC Green indicates the radios status of association with other radios on the network When the radio is first powered on this LED will blink on off at a very low frequency once connected to another radio this indicator will stay on
7. 8P ATmega3290P ATmega644 ATmega649 ATmega8535 ATtiny12 ATtiny25 ATtiny45 ATtiny861 AT9OPWM3 AT90s2333 AT90s4414 AT90s8535 AT90USB647 ATmegal280 ATmegal161 ATmegal64P ATmega2560 ATmega324P ATmega329 ATmega48 ATmega644P ATmega6490 ATmega88 ATtiny13 ATtiny26 ATtiny461 ATtiny88 ORnD Warehouse 2010 Page 22
8. Additional Programmer functions include Chip Erase This will reset the contents of the flash ROM and EEPROM to the value Oxff and clear all lock bits Terminal MS DOS Command Prompt Window Port Specifies the Port the Programmer is connected to This is not used in our case Display Window Response Display Window from the core avrdude program Fuse Bits You can write new values and read the status of the Fuse Bits Appendix Table 1 05 provides a list of AVR microcontrollers supported by the Programmer Using The XBee Stackable Prototype Board for XBee XBee PRO and FT232R Prototype Development Prototypes for XBee XBee PRO Data Acquisition and FT232R applications can be assembled quickly using the XBee Stackable Prototype board The stackable prototype board provides a 1 for 1 signal extension from both the RF Radio Port and the FT232R Bus RnD Warehouse 2010 Page 16 On the stackable prototype board the P1 and P3 sockets K provide a RF Radio Port Extension and the P2 and P4 L sockets provide the FT232R Bus 73 as ZBEE ay 6 e ASSY 15 13A P3e 724 ae eeeeoeeneee2 eeeseeeaaaees eweaeanasenae ee ee Oe ee a e t ae eeenaeeeaanaeuna eeeseneeasne al 7 ayy e A el The prototype board can accommodate various prototyping configurations for application specific hardware RnD Warehouse 2010 Page 17 Appendix Table 1 01 Pin Assignments for the XBee USB Multifun
9. COM4 9600 8 N 1 FLOW NONE B24 Ver 10E6 Select the new firmware 10E8 and the command parameters are updated in the Window 11 Under Modem Parameters and Firmware Press the Write button The program initializes the Modem and programs the new firmware into the Modem Observe the USB indicators TXD and RXD They should be blinking as the program writes and reads to and from the Modem 12 When the programming completes Under Modem Parameters and Firmware Press the Read button The parameter window blanks as the program reads at the end of the scan the new firmware parameters 10E8 are updated Note the new firmware version listing at the bottom of the window RnD Warehouse 2010 GB X CTU COM4 Remote Configuration PC Settings Range Test Terminal Modem Configuration r Modem Parameters and Parameter Profile r Versions Save Read Write Restore Clear Screen Always update firmware Show Defauts Load Modem XBEE Function Set Version xe24 v XBEE 802 15 4 r f10E8 s 7 Networking amp Security a i B CI CH Channel p 3332 ID PAN ID 0 DH Destination Address High 0 DL Destination Address Low Download new versions m i 0 MY 16 bit Source Address i 134200 SH Serial Number High i 404BED83 SL Serial Number Low 0 MM MAC Mode fa 0 AR XBee Retries fa 0 RN Random Delay Slots E 19 NT Node Discover
10. OM4 in this case should match the COM Port installed by the FTDI driver installation 8 Leave the settings as is The default Baud Rate of the radio is 9600 Flow Control None Data Bits 8 Parity None and Stop Bits 1 Press Test Query You should see this PC Settings Range Test Terminal Modem Configuration Com Port Setup Select Com Port USE CN Com test Query Mod Communication with modem OK Modem type XB24 Modem firmware version 10E6 API I Enable API TT Use escape characters ATAP 2 AT command Sep ASCII Hex Command Character CC Guard Time Before BT 1000 Guard Time After AT HO Modem Flash Update If vou receive an error message unable to communicate with the Modem Press Retry and communication should be established Note the Modem type should match the Xbee model installed and note the firmware version Basic communication is now established Press OK to return to the Main Menu 9 Next we are going to check to see if there exists a new update for the firmware and update the firmware if a new version does exist On the Main Menu press the Modem Configuration Tab The program moves the Remote Configuration Window ORnD Warehouse 2010 Remote Configuration PC Settings Range Test Terminal Modem Configuration m Modem Parameters and Firmware p Parameter View r Profile Versions cet Eora Ae Pesce Dear Screen Suea Save Download new IT A
11. ONTROL LINES TXD RXD RTS CTS DTR DSR DCD RI CBUS I O CONFIGURATION NORMAL MODE CONTROL LINES TXLED RXLED TXDEN PWREN SLEEP RnD Warehouse 2010 In the Normal Mode we basically have a UART with programmable Baud Rates and Flow Control In Windows the device would appear as a legacy COM port using the FTDI VCP drivers Bit Bang Mode The Bit Bang Mode allows the user to configure the device into different configurations other than the Normal Mode There are three types of Bit Bang modes for the FT232R Asynchronous Synchronous and CBUS The different Bit Bang modes are set by the the D2XX command FT SetBitMode The values for the different modes are shown below Asynchronous FT_SetBitMode 1 Synchronous FT_SetBitMode 4 CBUS FT_SetBitMode 20 Resetting the FT_SetBitMode 0 Resets the Device back to Normal Mode The FTDI D2XXX drivers must be used to access the Bit Bang Mode features These drivers are provided as separate DLL files and are simple to interface to You must remove VCP drivers before you install the D2XXX drivers Asynchronous Bit Bang Mode This mode is simply an 8 bit Parallel port where each pin can be set as an input or an output with each pin being independent of each other The rate that the data is written to or read from the port is controlled by the Baud rate generator The Normal Mode Control lines become TXD DO lt gt RXD Di lt gt
12. RTS D2 lt gt CTS D3 lt gt DTR D4 lt gt DSR D5 lt gt DCD D6 lt gt RI D7 lt gt RnD Warehouse 2010 Page 10 It is possible in this mode to extend the internal Read RD Write WR strobes to the CBUS pins in order to externally latch written data or strobe to read data These extended signals can be assigned to any one of the CBUSO CBUS3 pins Synchronous Bit Bang Mode In this mode data is only read from the device when the device is being written to It is a read modify write cycle Data is Read from the port possibly modified and then rewritten to the port The Data Port assignment DO D7 in this mode is the same as the Asynchronous pin assignment All data transfer is controlled by the synchronous Read RD Write WR strobes from the CBUS pins These signals can be assigned to any one of the CBUSO CBUS3 pins Asynchronous and Synchronous Bit Bang types are commonly used to transfer large buffers of data with FT_Write and FT_Read CBUS Bit Bang Mode This mode is simply a 4 bit Parallel port CBUSO CBUS3 where each pin can be set as an input or an output with each pin being independent of each other The CBUS Bit Bang mode must be configured in the FT232R EEPROM The CBUS must be set to an I O configuration Do not forget to re enumerate the device after programming or it will not work The CBUS Bit Bang is much slower in operation than the Asynchronous or Synchronous Bit Bang
13. TS D2 Either FTDI RTS D2 P4 12 DSR D5 Either FTDI DSR D5 P4 13 CBUS1 Output FTDI CBUS1 P4 14 VREF Input 3 3 VDC Voltage Reference P4 15 CBUSO Output FTDI CBUSO P4 16 DCD D6 Either FTDI DCD D6 P4 17 CBUS3 Output FTDI CBUS3 P4 18 CBUS2 Output FTDI CBUS2 P4 19 CBUS4 Output FTDI CBUS4 P4 20 RI D7 Either FTDI RI D7 Note FTDI CTS D3 is located on P3 16 RnD Warehouse 2010 Page 20 Appendix Table 1 04 Simplified Pin Assignments for the FTDI FT232R Breakout FTDI Pin Name Connected To DO P2 3 D1 P2 2 D2 P4 11 D3 P3 16 D4 P2 9 D5 P4 12 D6 P4 16 D7 P4 20 FTDI Pin Name Connected To CBUSO P4 15 CBUS1 P4 13 CBUS2 P4 18 CBUS3 P4 17 FTDI Pin Name Connected To TXD P2 3 RXD P2 2 RTS P4 11 CTS P3 16 DTR P2 9 DSR P4 12 DCD P4 16 RI P4 20 ORnD Warehouse 2010 Page 21 Appendix Table 1 05 List of supported AVR Microcontrollers by the Programmer AT90CAN128 AT90PWM3B AT90s2343 also AT90s2323 and ATtiny22 AT90s4433 AT90USB1286 ATmegal03 ATmegal1281 ATmegal62 ATmegal68 ATmega2561 ATmega325 ATmega329P ATmega64 ATmega645 ATmega8 ATmega88P ATtiny15 ATtiny261 ATtiny84 ATtiny2313 AT9OPWM2 AT90s1200 AT90s4434 AT90USB1287 ATmegal128 ATmegal284P ATmegal63 ATmegal68P ATmega32 ATmega3250 ATmega3290 ATmega640 ATmega6450 ATmega8g515 ATtiny11 ATtiny24 ATtiny44 ATtiny85 AT9SOPWM2B AT90s2313 AT90s8515 AT90USB646 ATmegal28RFA1 ATmegal6 ATmegal64 ATmegal169 ATmega324 ATmega32
14. Time fd 0 NO Node Discover Options f 0 CE Coordinator Enable d 1FFE SC Scan Channels f 4 SD Scan Duration fd 0 41 End Device Association 0 42 Coordinator Association HE 0 Al Association Indication 0 EE AES Encryption Enable 5 Modify networking settings COM4 9600 8 N 1 FLOW NONE XB24 Ver10E8 This completes the firmware update close the XCTU program It is beyond the scope of this manual to demonstrate any additional capabilities of the XCTU program We suggest downloading the XCTU Users Guide for this program and exploring the additional capabilities of the XCTU program The Link for this manual is located on the product page RF Radio Port Bus Extension The XBee XBee PRO Radio Modules contain an on board microprocessor This on board microprocessor supports external inputs of Analog Voltages for ADC conversion external Digital inputs and can be configured for Digital outputs including PWM outputs ORnD Warehouse 2010 These additional support features are extended from the pins of the radio A to the P1 and P3 sockets F This port extension allows the user to harness the full capability of the radio i e g TO MaxStreams XBee Reference the Appendix Table 1 02 for the XBee XBee PRO module pin assignments Reference the Appendix Table 1 01 for the P1 and P3 pin assignments To enable PWMO P1 6 remove the RSSI 2 pin jumper
15. XBee USB Multifunction Development Tool User Manual Compact multifunction USB development tool with advanced features e RF Wireless Development e USB Development e AVR Programming Typical Applications e Low Power USB Wireless Development e Low Power CPU Based Wireless Development e Low Powered USB Instrumentation Power Supply The power supply for the development tool is derived from the USB port The USB port provides 5 VDC power to the tool An on board 3 3 VDC regulator provides additional power required for the radio Both power supplies are available for prototype development Maximum available current from a typical USB port is 500 mA On the tool an on board resettable PTC fuse protects the USB port from any continuous power drain above 500 mA Typical current drawn by the tool with no radio 400 uA 6 ZBLEUSB 06 epee at Th i RF Wireless Development c3 The development tool supports Digi International s XBee family of RF radios DIGI 802 15 4 ZIG BEE and DIGI MESH The radio is placed and aligned in the socket pair J 1 and J2 Ref A A 5 Pin Mini B cable is required to connect the USB port from the computer to the Mini B connector on the development tool Ref B RnD Warehouse 2010 Radio communication and control is supported through ZBEE USB N the USB port An on board single chip FTDI FT232R 4 T p provides a USB to asynchronous serial data and control E oN interface to the
16. ctional P1 and P3 Sockets P1 SKT amp Pin Name Direction Connected To P1 1 VCC Power Supply 5 VDC P1 2 DOUT Output XBEE UART Data Out P1 3 DIN Input XBEE UART Data In P1 4 DO8 Output XBEE Digital Output 8 P1 5 vccl Power Supply 3 3 VDC P1 6 PWMO RSSI Output XBEE PWM 0 RX Signal Strength Indicator P1 7 PWM1 Output XBEE PWM1 P1 8 SGND Signal Ground P1 9 Remote DTR Input Remote DTR Flow Control P1 10 GND Ground P3 SKT amp Pin Name Direction Connected To P3 11 AD4 DIO4 Either XBEE Analog Input 4 or Digital I O 4 P3 12 Remote RTS Input Remote RTS Flow Control P3 13 ON SLEEP Output XBEE Module Status Indicator P3 14 VREF Input 3 3 VDC Reference for XBEE A D P3 15 Associate AD5 DIO5 Either XBEE ASC Indicator Analog In 5 Dig 1 0 5 P3 16 CTS DIO7 D3 Either XBEE CTS Digital O7 FTDI CTS D3 P3 17 AD3 DIO3 Either XBEE Analog In 3 or Digital I O 3 P3 18 AD2 DIO2 Either XBEE Analog In 2 or Digital I O 2 P3 19 AD1 DIO1 Either XBEE Analog In 1 or Digital I O 1 P3 20 ADO DIOO Either XBEE Analog In 0 or Digital I O 0 NOT DIRECTLY CONNECTED TO THE XBEE RADIO Appendix RnD Warehouse 2010 Page 18 Table 1 02 Pin Assignments for XBee Xbee Pro Radio Modules Table 1 02 Pin Assignments for the XBee and XBee PRO Modules Low asserted signals are distinguished with a horizontal line above signal name ee ENNE CN a EST g CSI A S e a SET 7 TTL D A S a E Pwd RSSI PVM Output 0 RX Signal Strength Indicator
17. dard AVR ISP SPI interface consists of a 6 Pin Header in this configuration 1 2 TI MISO VCC rE 7 SCK MOSI ms RESET GND RnD Warehouse 2010 Page 12 MISO SCK and MOSI comprise the SPI interface A device RESET is also required as part of the programming interface USB Power VCC can also be supplied to the AVR device being programmed Only use this feature when power is not being supplied to the AVR device by another power source The USB Power is supplied through a 2 Pin jumper USB AVR PWR J ZBEE USB ASSY 15 148 lt 15 1 RnDWAREHOUSE COM GND o d e rd 3 1 M N bcs Ais cs cz FB2 fra ome CB The AVR ISP Program Header J4 I requires a 6 Pin Ribbon cable for a 1 1 compatible connection to any AVR ISP Program Header Looking into the connector J 4 Pin 1 is located in the lower left hand corner The FTDI FT232R Synchronous Bit Bang SPI interface Has the following Pin assignments TXD RXD RTS CTS MISO gt DTR DSR SCK gt DCD MOSI lt RI RESET gt The software used to drive the interface is a modified version of the popular open source programming utility avrdude avrdude gui is a simple graphical user interface for avrdude program RnD Warehouse 2010 Page 13 Download AVR_Programmer rar this archive contains the Windows Installer for the AVR programming software Unzip this archive to a Directory on you
18. gn a radio into the J1 J2 socket pair Observe that all pins are in correct alignment with the socket pair Ref A 4 Connect a 5 Pin Mini B cable from the USB port from the computer to the Mini B connector on the development tool Ref B Note the ASC LED should be blinking 5 Install the FTDI drivers If you have problems installing just unplug the Mini B cable and reinstall the cable Windows will try to reinstall the drivers Note the COM Port assignment when the drivers are successfully installed 6 Download the current Digi International XCTU General Diagnostics and Utilities program Install the program Link is on the Product page Make sure you allow the installation program to update the Firmware Source Versions Depending upon your connection speed this could take a few minutes to perform the complete source update 7 Once the installation is complete start the XCTU program You should see this S S a eS About PC Settings Range Test Terminal Modem Configuration r Com Port Setup Select Com Port Baud 3600 X Flow Control NONE Data Bits Parity Stop Bits Test Query Host Setup User Com Potts Network Interface API FT Enable API r AT command Setup ASCII Hex Command Character CC Guard Time Before BT 1000 Guard Time After AT 1000 ers ATAP 2 Modem Flash Update T No baud change RnD Warehouse 2010 Note the USB Serial Port C
19. it is byte oriented It is important to note that the CBUS is a unique port initiated by a separate mode It is not implied that this port can be used in conjunction with Asynchronous or Synchronous Bit Bang to obtain a 12 bit port It will not work For more detailed information about these modes see FTDI Application Note AN_232R 01 for the FT232R and FT245R Bit Bang Modes RnD Warehouse 2010 Page 11 FT232R Bus Extension The FT232R Bus Extension extends all the control lines of the FT232R to the Prototyping sockets With the exception of CTS D3 which is located on P3 16 all control lines of the FT232R are extended from the device to the to the P2 and P4 sockets H ZBEEUSB amp BE JE 15 140 RnDWAREHOUSE COM GND e Go J at Reference the Appendix Tables 1 03 and 1 04 for the FT232R pin to socket assignments Using these features of the FT232R it is east to design USB to SPI Parallel and Serial interfaces for your hardware designs It is recommended that the Radio be removed when using the Parallel interface Using the XBee USB Multifunction Development Tool for AVR Programming AVR microcontrollers can be programmed through an SPI interface Using the FTDI FT232R in Synchronous Bit Bang mode it is possible to configure an SPI interface on the device to program these microcontrollers All that is required is a standard AVR ISP interface and programming software to control the FT232R SPI interface The stan
20. lways update firmware Show Defaults Load versions Modem Function Set Version UNKNOWN gt z v Press Read to discover an attached modem or select the modem type above COM4 9600 8 N 1 FLOW NONE Under Modem Parameters and Firmware Press the Read button The program scans the attached radio and reports the firmware command parameters E QB x CTU COM4 x Remote Configuration PC Settings Range Test Terminal Modem Configuration gt Modem Parameters and Firmware gt Parameter View gt Profile Versions Read Write Restore Clear Screen Save Download F JT Always update firmware Show Defaults Load MEESTER S Modem XBEE Function Set Version B24 XBEE 802 15 4 10E6 Networking amp Security a C CH Channel 3332 ID PAN ID 0 DH Destination Address High i 0 DL Destination Address Low d 0 MY 16 bit Source Address i f 134200 SH Serial Number High E 404BED83 SL Serial Number Low d 0 MM MAC Mode 0 AR Bee Retries B 0 RN Random Delay Slots Bi 19 NT Node Discover Time B 0 NO Node Discover Options 0 CE Coordinator Enable f 1FFE SC Scan Channels fa 4 SD Scan Duration UH 0 41 End Device Association E 0 42 Coordinator Association E 0 l Association Indication 0 EE AES Encryption Enable Modify
21. r Disk Drive navigate to the folder AVR Programmer Setup Files double click on setup msi and install the programming software The Installer will install the software and create a Desk top Icon for the graphical user interface If you don t have Microsoft NET framework 2 0 installed download the installation program from the Microsoft website and install it The AVR programming software requires this installation Programming a AVR Microcontroller 1 Connect from J4 1 to the target AVR ISP Program Header using a 6 Pin Ribbon cable 2 Install a Jumper on the 2 Pin USB AVR PWR J Header if power is required by the AVR device being programmed 3 Connect the Development tool to a USB port using a 5 Pin Mini USB cable 4 Double click the avrdude gui Icon to run the programming software avrdude_exe File je Al Display Window Port Device Command line Option a 7 Fuse Flash hFuse 77 h IFuse h Read Write eFuse h Verify Erase Write Verify Lock Bit EEPROM Read mea Reed We ChipErase Temna J en j 5 The first time you run the avrdude gui program you will need to configure the default settings 6 First you need to specify the location of the program avrdude exe in the avrdude exe File field Press the browse button at the right of the field to locate the file RnD Warehouse 2010 Page 14 Typical location for this file is illustra
22. ted for a C Program Files installation SZERT a av oiei oooi o eerie tae avrdude exe File C Program Files RnD Warehouse AVR Programmeriavrdude serjtag binary avrdude exe Programmer FT232R Synchronous BitBang diecimila X Port Device Command line Option ATmega1280 m1280 z PRO B 4800 Fuse Flash E Display Window hFuse h Read IFuse h eFuse h Lock Bit Rea h me Chip Erase 7 Press the pull down button next to the Programmer field and select FT232 Synchronous BitBang diecimila 8 Press the pull down button next to the Device field and select your microcontroller in this case ATmegal1280 m1280 9 In the Command line Option field enter P ftO B 4800 P ft0 is the FT232R Bitbang Port settings B 4800 sets the slow clock mode setting 10 Test the connection by reading the fuse bits Press the Read button in the Fuse area If you get an error check your wiring and try again RnD Warehouse 2010 Page 15 If the fuse bits can be read then youre ready to proceed to programming your device 11 Press the browse button next to the Flash field and navigate to and select the hex file you want to use Press the Erase Write Verify button to program the part Fuse Flash hFuse h Hm 12 Programming completed Remove the ISP programming cable
Download Pdf Manuals
Related Search