Texas Instruments Network Card CC2511 User Manual

CC2511 Dongle  
CC2511 Dongle  
User Manual  
Rev. 1.0  
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CC2511 Dongle  
1
Introduction  
Thank you for purchasing a SmartRF®04DK Development Kit.  
Please note that Chipcon uses the term SmartRF®04DK as a collective term for all  
development kits on the SmartRF®04 platform. This development platform supports  
evaluation, development and prototyping using the SmartRF®04 products from Chipcon.  
Make sure to subscribe to Chipcon’s Developer’s Newsletter to receive information about  
updates to documentation, new product releases and more. Sign up on the Chipcon web site.  
2
About this manual  
This manual covers the CC2511 Dongle, found in the CC2510–CC2511DK. It covers both the  
CC2511 Dongle hardware and software components of the development kit.  
It covers the use of CC2511 application examples.  
The CC2510EM and CC2510 application examples are covered in a separate document.  
SmartRF® Studio has its own user manual.  
The Chipcon Packet Sniffer has its own user manual.  
The Chipcon Flash Programmer has its own user manual.  
Further background information can be found in the device datasheets.  
3
Definitions  
SmartRF04EB  
Evaluation Board. Main board with LCD, USB interface,  
LEDs, pot-meter etc. Platform for the Evaluation Modules  
(EM, see below).  
A collective term used for all development kits for the  
SmartRF®04 platform, i.e. SmartRF04EB + EM.  
CC2510 Evaluation Module, a small plug-in module for  
SmartRF04EB, should be used as reference design for  
antenna and RF layout.  
SmartRF®04DK  
CC2510EM  
CC2511 USB Dongle  
SoC  
CC2511 Evaluation Module, a small USB dongle.  
SmartRF04EB, should be used as reference design for  
antenna and RF layout.  
System on a Chip. A collective term used to refer to  
Chipcon ICs with on-chip MCU and RF transceiver. Used  
in this document to reference the CC2430 and the  
CC2510.  
ICE  
In Circuit Emulator.  
CC2510 application examples  
CC2511 application examples  
Application examples using only the CC2510.  
Application examples using the CC2511 USB Dongle  
together with a CC2510.  
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CC2511 Dongle  
4
Connecting CC2511 Dongle to SmartRF04EB.  
Please see the “CC2430DK_CC2510_CC1110_User_Manual” for more information on the  
SmartRF04EB and how to use the CC2510EM.  
Make sure to install SmartRF® Studio before connecting the SmartRF04EB to a PC.  
SmartRF® Studio can be downloaded from the www.chipcon.com or www.ti.com/lpw  
The CC2511 have a 2 wire debug interface that is used for chip programming and debugging.  
When connecting this interface to the SmartRF04EB USB MCU, the CC2511 can be  
programmed from the Chipcon Flash Programmer software and debugged from IAR  
embedded workbench..To connect the CC2511 Dongle to the SmartRF04EB follow these 6  
steps:  
1. Turn off the SmartRF04EB power by moving the power switch to the left position. See  
2. Remove any CCxxxxEM modules attached to the SmarRF04EB.  
3. Connect the SmartRF04EB to a PC with the supplied USB cable.  
4. Connect the CC2511 Dongle to the SmartRF04EB with the supplied 10 pin cable.  
The cable should be mounted between the “SoC debug” connector on the CC2511  
Dongle and the “P14 SoC debug / flash” connector on the SmartRF04EB. Make sure  
pin 1 is connected to pin 1. This cable connects the debug interface and GND  
between the two devices, however the CC2511 Dongle is not powered trough this  
cable.  
5. Power the CC2511 Dongle.  
To power the CC2511 Dongle there are two options:  
Powered with a USB cable.  
Using the supplied USB extension cable to connect the CC2511 Dongle to the  
PC.  
Powered from the SmartRF04EB.  
Connect pin 9 on the “Test pin” connector on CC2511 Dongle to pin 5 on the “I/O  
A” connector on SmartRF04EB to power the Dongle from the SmartRF04EB.  
The CC2511 Dongle should only be powered by one of the two sources at a time.  
Do not connect the USB cable to the CC2511 Dongle while it is powered from the  
SmartRF04EB.  
The SmartRF04EB have a level converter on the debug connector, so the  
SmartRF04EB and the CC2511 Dongle may have a different power supply voltage.  
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CC2511 Dongle  
Figure 1 CC2511 Dongle powered from USB cable  
Figure 2 CC2511 Dongle powered from SmartRF04EB  
6. Turn on the power on the SmartRF04EB. See Figure 3.  
Figure 3: SmartRF04EB Power switch, power on.  
The CC2511 can now be programmed with the Chipcon Flash Programmer software. The  
firmware on the CC2511 can also be debugged using the IAR embedded workbench  
debugger.  
Please see the IAR user manual and the Chipcon Flash Programmer user manual for more  
details.  
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CC2511 Dongle  
5
Using SmartRF04EB as an In-Circuit Emulator (ICE)  
The SmartRF04EB can be used as ICE for the CC2511  
To use the SmartRF04EB as ICE, the IAR Embedded Workbench software must be installed.  
The Embedded Workbench is a C-Compiler, Simulator, and ICE debugger. See the IAR  
Embedded Workbench documentation supplied with the kit for instructions how to set up the  
ICE debugger for use as an ICE.  
When the SmartRF04EB is connected to a PC with the USB port, the debugger will connect  
to the SmartRF04EB. Several SmartRF04EB can be connected to USB ports simultaneously.  
A selection window will display the connected SmartRF04EB, and the user can select which  
device to load.  
For custom PCB’s with the CC2511, it is recommended to include a pin header or test points  
to allow in-circuit emulation or programming using SmartRF04EB or other 3rd party  
programming tools. Use the CC2511 Dongle as  
a
reference. Please see the  
CC2510/CC2511section of the Chipcon web site for an updated list of 3rd party programming  
tools.  
When using smartRF04EB as emulator for external target debugging any CCxxxxEM module  
must be removed  
The pin-out used on the SmartRF04EB is explained in Table 1 and Figure 4. The connector  
includes 4 SPI control signals. These are currently not used, but they are included to give  
users flexibility.  
Pin  
1
Function  
Gnd  
2
VDD  
3
4
5
6
Debug Clock(DC)  
Debug Data(DD)  
CSn(optional)  
SCLK(optional)  
Reset_N  
7
8
9
10  
MOSI(optional)  
3.3V VDD, alt. NC  
MISO  
Table 1: P14 SOC debug connector pin-out  
VDD note: The SmartRF04EB includes a voltage converter to support programming and  
debugging of external systems with different voltage than the SmartRF04EB. The debug  
connector includes two VDD connections on pin 2 and pin 9. The function is different for these  
connections.  
Pin 2 VDD supplies voltage to the voltage converter. If the target application is self powered  
pin 2 should be connected to VDD to assure that the correct supply voltage is used for the  
voltage converter. This pin must always be connected to VDD.  
Pin 9 VDD supplies 3.3V from the SmartRF04EB. If the target application is powered from the  
SmartRF04EB supply during programming and debugging this pin can be connected to VDD.  
If the target voltage differs from 3.3V, this pin should not be connected.  
On the CC2511 Dongle this pin is not connected. Hence the CC2511 Dongle must be  
powered from a separate USB cable or a separate cable connecting pin 9 on “test pins” / P4  
to VDD on the SmartRF04EB. See chapter 4 for details.  
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1
2
1. GND  
3. DC  
2. VDD  
4. DD  
7. Reset_N  
Figure 4: Recommended debug connector layout (Top view)  
Figure 4 shows the required signal for a minimum connector layout.  
Figure 5: SmartRF04EB debug connector for debugging  
CC2511 Dongle / other external target systems  
5.1 Debugging USB firmware  
When writing and debugging USB firmware one should remember that when Windows (or  
another OS) detects a USB device it will assume that it works in accordance with the USB  
specification. During debugging this might not be the case. Breakpoints may stop the  
execution of code on the CC2511 Dongle and firmware under development may not be  
completed or error free. This may lead to the PC disconnecting the CC2511 Dongle and  
turning off or toggling its power supply. In some cases Windows (or the OS in use) may crash  
or misbehave. Hence breakpoints should be used with caution.  
Obviously inserting and using breakpoints in the firmware during debugging will be extremely  
useful to pinpoint bugs and follow code execution. And they can and should be used. But they  
will also stop the code execution on the CC2511 and may cause the device to act in conflict  
with the USB specification. This can lead to the PC disconnecting the CC2511 Dongle,  
sending a USB reset or worst case the operating system may crash.  
If the firmware contain bugs that make the PC disconnect the CC2511 Dongle it may be  
necessary to disconnect the USB cable, and power the CC2511 Dongle from the  
SmartRF04EB in order to reprogram it.  
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5.2 Known problems  
When using the debug interface through the level-converter on the SmartRf04EB. (Shown in  
Figure 1 and Figure 2) it might become unstable. This problem is more likely to occur a low  
voltages or with crosstalk in the cable at high interface speed.  
First make sure that the 10 pin flat cable used to connect the CC2511 USB Dongle to the  
SmartRF04EB is as short as possible.  
Next it might be necessary to reduce the debug interface speed in order to achieve stable  
operation.  
In the IAR workbench do the following:  
Highlight the project name by clicking on it in the “Files” window. (See Figure 6)  
Go to Project -> Options…  
Select the Category “Chipcon”  
Click on the “Target” tab.  
Check the “Reduce interface speed” option. (See Figure 7)  
Highlight the  
project name  
Figure 6: Highlight the project name  
Check the  
“Reduce interface  
speed” option.  
Figure 7: Reduce interface speed  
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CC2511 Dongle  
6
CC2511 application examples  
This section describes the application examples available for the CC2511. These application  
examples focus on how to use the USB on the CC2511. The examples is available both as  
source code and ready-to-upload .hex files from the Chipcon website.  
There are three CC2511 application examples.  
Wireless mouse / practical joke.  
Wireless USB to Serial port converter. (CDC, Communication Devices)  
Wireless WinAmp remote control. (Vendor requests, custom Windows driver)  
(HID , Human Interface Devices)  
There is also a CC2510 Application Example available. This example provides valuable  
information about setup and usage of different modules found in both CC2510 and CC2511.  
Please see the “CC2430DK_CC2510_CC1110_User_Manual” for more information about this  
Application Example.  
All the application examples use the same packet format and radio frequency. This is done to  
make it simple to observe the radio activity on the Chipcon General Packet Sniffer. After  
installing the packet sniffer choose the “CC2511 App. Example protocol” to see the radio  
traffic. Figure 8 show the packet sniffer observing radio traffic in the “Wireless USB to Serial  
port converter” application example.  
See the Chipcon General Packet Sniffer user manual for more information.  
Figure 8: Screenshot of the Chipcon General Packet Sniffer  
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6.1 Wireless mouse / practical joke  
This application demonstrates the use of the CC2511Dongle as a USB composite HID  
(Human Interface Device), with both keyboard and mouse.  
The application will work on most operating systems.  
This application example uses the USB framework found in the CC2511 firmware library to  
setup the USB on the CC2511 Dongle and to handle all USB standard requests. In addition  
the Class requests required by the HID device class are implemented in a separate file.  
The radio communication between CC2510EM and CC2511 Dongle is done using the RF part  
of the CC2511 firmware library.  
See “Device Class Definition for Human Interface Devices (HID)” found on  
HID class.  
6.1.1 Software components  
simple_hid_dongle.hex  
The CC2511 USB Dongle firmware, is found in  
”CC2511DK\embedded_sw\App_Ex\simple_hid\simple_hid_dongle\”.  
simple_hid_eb.hex  
The CC2510 EM firmware is found in  
”CC2511DK\embedded_sw\App_Ex\simple_hid\simple_hid_eb\”.  
6.1.2 Installing the application  
1. Attach the CC2510EM to a SmartRF04EB and program it with the flash image  
simple_hid_eb.hex, using IAR workbench or the Chipcon FLASH programmer.  
(See “CC2430DK_CC2510_CC1110_User_Manual” for more information).  
2. Connect the CC2511 Dongle to the other SmartRF04EB and program it with the flash  
image simple_hid_dongle.hex, using IAR workbench or the Chipcon FLASH  
programmer.  
(See “CC2430DK_CC2510_CC1110_User_Manual” for more information).  
6.1.3 Running the application  
Insert the CC2511 Dongle into a free USB port. The firmware will identify the CC2511 Dongle  
as a composite HID with a keyboard and mouse.  
On most operating systems no extra driver is necessary; the OS will automatically load a  
standard driver for HID devices.  
The pot-meter “RT1” on the SmartRF04EB is used to choose between the “simple mouse”  
and the “practical joke” mode. Turn the pot-meter fully counter clockwise to select the “simple  
mouse”, fully clockwise to select the “practical joke” mode.  
In “simple mouse” mode the joystick on the SmartRF04EB can be used as a mouse. The  
button “S1” is the left mouse button, pushing the joystick is the right mouse button.  
While in simple mouse mode the CC2510 will calculate the RSSI (Receive Signal Strength  
Indicator) on the packets received from the CC2511 Dongle and display it on the LCD screen.  
The RSSI value is updated each second.  
In “practical joke” mode there are three jokes to choose from:  
Moving mouse – the mouse will constantly move slowly towards the right.  
Write to screen – Writes the text “anybody home” to the PC.  
Change window (ALT – TAB) – Changes the active window in Windows by sending  
the ALT – TAB keystrokes.  
Move the joystick up and down to select joke, push “S1” button to start/stop.  
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6.2 Wireless USB to Serial port converter  
This application example is a wireless USB to serial port (RS232) converter.  
It creates a virtual serial port in Windows. Data sent to this virtual serial port will be sent to the  
CC2511 Dongle over USB, then to CC2510 EM over radio and finally out on the serial port on  
the CC2510 EM / SmartRF04EB.  
Data sent to the serial port on the SmartRF04EB will be transferred to the virtual serial port in  
Windows.  
Full duplex and flow control on the serial port (CTS and RTS lines) are supported. The radio  
link has CRC check and automatic retransmission for error free operation.  
The application uses a CDC driver found in Windows, if used on other operating systems a  
suitable driver must be found/created. The Windows driver is rather slow and will limit the  
maximum throughput to approx 70 Kbit/s.  
This application example uses the USB framework found in the CC2511 firmware library to  
setup the USB on the CC2511 Dongle and to handle all USB standard requests. In addition  
the class requests required by the CDC device class are implemented in a separate file.  
The radio communication between CC2510EM and CC2511 Dongle is done using the RF part  
of the CC2511 firmware library.  
The application example also uses the buffer module in the library to handle data buffering  
and the timer4 manager module for timing.  
See  
“Class  
Definitions  
for  
Communication  
Devices”  
found  
on  
CDC class.  
6.2.1 Software components  
rs232_to_usb_dongle.hex  
The CC2511 USB Dongle firmware, is found in  
“CC2511DK\embedded_sw\App_Ex\rs232_to_usb\rs232_to_usb_dongle\”.  
rs232_to_usb_eb.hex  
The CC2510 EM firmware is found in  
“CC2511DK\embedded_sw\App_Ex\rs232_to_usb\rs232_to_usb_eb\”.  
CC2511ApExSerialPort.inf  
The windows driver for the Wireless USB to Serial port, found in  
“CC2511DK\pc_sw\App_Ex\rs232_to_usb\driver\”.  
6.2.2 Installing the application  
1. Attach the CC2510EM to a SmartRF04EB and program it with the flash image  
rs232_to_usb_eb.hex, using IAR workbench or the Chipcon FLASH programmer.  
(See “CC2430DK_CC2510_CC1110_User_Manual” for more information).  
2. Connect the CC2511 Dongle to the other SmartRF04EB and program it with the flash  
image rs232_to_usb_dongle.hex, using IAR workbench or the Chipcon FLASH  
programmer.  
(See “CC2430DK_CC2510_CC1110_User_Manual” for more information).  
3. Disconnect the programmed CC2511 USB Dongle from the SmartRF04EB and plug it  
into a free USB port on the PC.  
4. When windows ask for a driver, point to the file “CC2511ApExSerialPort.inf”.  
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When Windows have finished installing the device, a new serial port will appear in the device  
manager in Windows. See Figure 9.  
Figure 9: Virtual serial port in Windows Device manager  
The Windows driver will only work if the “Ti Wireless USB to Serial” is assigned to COM1 to  
COM9. (In Figure 9 it is assigned to COM6)  
If there are many COM ports installed on the PC, Windows may chose to assign it to a  
number higher than 9. If that happens it must be changed. Right click on the “Ti Wireless USB  
to Serial” in the device manager and choose “Properties” -> “Port settings” -> “Advanced” to  
change.  
6.2.3 Running the application  
Connect the CC2510EM to the SmartRF04EB and power it. Use the joystick and the S1  
button to select the settings for the UART. The settings can only be selected once, if they are  
wrong, turn power off and on to reset the CC2510EM and select UART settings again.  
These settings only apply to the UART on the CC2510/SmartRF04EB, the settings used on  
the Virtual COM port on the PC can be different.  
Changing the settings on the CC2510EM/SmartRF04EB will not affect the settings used in the  
Virtual COM port and visa versa.  
To bind the CC2510EM to the CC2511 Dongle, hold them close together and push S1 on the  
SmartRF04EB. The RF protocol found in the CC2511 firmware library uses kiss-binding which  
mean that the CC2511 Dongle use the RSSI (Received Signal Strength Indicator) to only  
accept bind requests from units that are in close proximity. If the two devices are too far apart  
(more than approx 1 meter) the CC2511 will not accept the bind request.  
To test the link connect a RS232 cable between a PC and the SmartRF04EB, start  
HyperTerminal in Windows (Start -> Programs -> accessories -> Communications ->  
HyperTerminal)  
Connect one HyperTerminal window to the Virtual COM port, and another HyperTerminal  
window to the COM port connected to the CC2510EM/SmartRF04EB.  
Text written to one window will be sent to the other one.  
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6.3 Wireless WinAmp remote control  
This application example is a wireless remote control for WinAmp media player. It is a two-  
way remote, which display the song information of the song played on the LCD screen on the  
SmartRF04EB.  
The communication between the CC2511 Dongle and WinAmp is handled by a custom  
WinAmp plug-in. Hence this remote control will work with WinAmp only.  
This application example uses the USB framework found in the CC2511 firmware library to  
setup the USB on the CC2511 Dongle and to handle all USB standard requests. In addition it  
demonstrates the use of Vendor requests in the USB framework. On the PC the CUDAL  
library is used to create a custom driver (see chapter 7.2 Windows USB driver framework).  
The radio communication between CC2510EM and CC2511 Dongle is done using the RF part  
of the CC2511 firmware library.  
The application example also uses the buffer module in the library to handle data buffering  
and the timer4 manager module for timing.  
6.3.1 Software components  
winamp_remote_dongle.hex.  
The CC2511 USB Dongle firmware, is found in  
“CC2511DK\embedded_sw\App_Ex\winamp_remote\winamp_remote_dongle\”,  
winamp_remote_eb.hex  
The CC2510 EM firmware, is found in  
“CC2511DK\embedded_sw\App_Ex\winamp_remote\winamp_remote_eb\”  
gen_chipcon_remote.dll  
The WinAmp plug-in, is found in  
“CC2511DK\pc_sw\App_Ex\winamp_remote\WinAmp_pluginn”  
CC2511ApExWinAmpRemote.inf, cudal.sys and cudal98.sys  
The windows driver for the WinAmp remote control, found in  
“CC2511DK\pc_sw\App_Ex\winamp_remote\driver”  
6.3.2 Installing the application  
1. Attach the CC2510EM to a SmartRF04EB and program it with the flash image  
winamp_remote_eb.hex, using IAR workbench or the Chipcon FLASH programmer.  
(See “CC2430DK_CC2510_CC1110_User_Manual” for more information).  
2. Connect the CC2511 Dongle to the other SmartRF04EB and program it with the flash  
image winamp_remote_dongle.hex, using IAR workbench or the Chipcon FLASH  
programmer.  
(See “CC2430DK_CC2510_CC1110_User_Manual” for more information).  
3. Download WinAmp from: www.winamp.com  
4. Install WinAmp.  
5. Install the WinAmp plug-in by copying the file “gen_chipcon_remote.dll” to the  
“C:\Program Files\Winamp\Plugins\” folder.  
6. Disconnect the programmed CC2511 USB Dongle from the SmartRF04EB and plug it  
into a free USB port on the PC.  
7. When windows ask for a driver, point to the file “CC2511ApExWinAmpRemote.inf”.  
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8. If windows ask for the file “cudal.sys” or “cudal98.sys”, point to “cudal.sys” or  
“cudal98.sys”.  
9. Turn on the CC2510EM / SmartRF04EB.  
10. The USB dongle may have to be removed and reinserted once to the PC for the  
application to work.  
6.3.3 Running the application  
1. Start WinAmp, the gen_chipcon_remote plug-in will automatically be loaded.  
2. Make sure the CC2510 USB Dongle is plugged into a USB port on the PC.  
3. Turn on the SmartRF04EB development card, with the CC2510EM.  
The song title, volume, time and status will appear in the LCD screen on the  
SmartRF04EB.  
The controls are the following:  
o
o
o
o
o
Joystick up / down  
Joystick left / right  
Push joystick  
Push button “S1”  
Turn pot-meter “Pot”  
– next / previous song.  
– fast forward / backwards.  
– toggle play / pause.  
– toggle play list shuffling.  
– adjust volume  
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7
USB development framework  
A versatile, efficient and easy to use USB development framework is available for the  
CC2511. The intension with this framework is to make USB development as quick and easy  
as possible. The framework includes a firmware framework for the embedded software on the  
CC2511, and a Windows USB driver framework.  
In addition there is general example code and libraries available showing how to use the  
CC2510 and CC2511 MCU, radio and other peripherals.  
7.1 CC2511 USB embedded firmware library  
The CC2511 USB library is a software package aimed at making development of USB  
devices with the CC2511 quick and simple. It supports both vendor-specified device classes  
and standardized device classes such as HID and USB audio, with any number of  
configurations, interfaces and alternate settings. The following features are provided:  
Initialization of the USB peripheral unit, and response to reset-signaling on the bus.  
Automated response to almost all standard requests, based on data from the USB  
descriptor set (the SYNCH_FRAME and SET_DESCRIPTOR requests must be  
handled by the application).  
Automated setup of endpoint control registers, depending on the selected  
configuration and interface alternate settings.  
All endpoint types are supported: Setup, bulk, interrupt and isochronous.  
A simple and efficient interface for responding to class and vendor requests. Both  
automated and manual data transfer is supported.  
Endpoint access via a simple set of macros and functions.  
Support for suspend mode and remote wake-up.  
A function hook- and event-based interface allows for the framework to run from  
main, the USB interrupt, or a combination of both.  
The library is completely generic, flexible, efficient, and easy to use. However, it does require  
brief knowledge of the USB specification, including the concepts of configurations, interfaces  
and endpoints, different endpoint types, standard, vendor and class requests, and USB  
descriptor sets.  
Figure 10: USB library  
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As shown in Figure 10 the USB library is divided into five modules:  
The USB Framework (usbfw) contains all USB status information and functions for  
initialization, device reset handling, and transfers on endpoint 0. It also contains basic macros  
and functions for endpoint control and FIFO access. Vendor and class requests are passed  
up to the application, and standard requests further down for internal processing.  
The USB Standard Requests (usbsr) module contains automated processing functions for  
almost all standard requests. The automated handling and endpoint configuration relies on  
the USB descriptor set and two look-up tables. Requests that are not supported  
(SYNCH_FRAME and SET_DESCRIPTOR) or that are class specific, are passed up to the  
application. The application is also notified upon important events, such as change in  
endpoint status or interface alternate settings.  
The USB Descriptor Parser (usbdp) module provides a mechanism for locating standard-  
formatted USB descriptors. The user must provide a USB descriptor set, and two simple  
lookup tables - one for locating other descriptor formats, and another for setting up endpoint  
double-buffering. The necessary constant and structure definitions, and guidelines for writing  
compatible descriptor sets, are found in the USB Descriptor module.  
The USB Suspend (usbsusp) module provides easy to use, fully automated support for USB  
suspend, USB resume and USB remote wakeup functionality.  
To implement USB suspend and USB resume the user only need to add a short piece of code  
to the main loop.  
USB remote wakeup is performed by a single function call.  
The complete documentation of the CC2511 USB embedded firmware framework is available  
in a compressed HTML file, cc2511_USB_library.chm found in  
“CC2511DK\embedded_sw\Library\cc2511\CC2511UsbLibrary\doc”.  
7.2 Windows USB driver framework  
CUDAL (Chipcon USB Dongle Access Library) provides an easy-to-use C++ interface to the  
CC2511 USB Dongle, making development of PC software easy. This framework is used to  
create the USB driver in the WinAmp remote control application example. (The other  
application examples use standard Windows drivers).  
The following features are supported in CUDAL:  
The standard requests:  
o
o
o
o
o
o
GET_DESCRIPTOR  
GET_STATUS  
SET_CONFIGURATION  
GET_CONFIGURATION  
SET_INTERFACE  
GET_INTERFACE  
All vendor requests  
All class requests  
BULK and INTERRUPT transfers, with asynchronous and synchronous read and  
write functions  
The following features are not supported in CUDAL:  
The following standard requests:  
o
o
o
SET_DESCRIPTOR  
SET_FEATURE  
CLEAR_FEATURE  
Isochronous transfers  
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CC2511 Dongle  
The complete documentation of the CUDAL framework is available in a compressed HTML  
file, “cudal.chm”, found in “CC2511DK\pc_sw\CUDAL\doc”  
7.2.1 Windows USB driver license  
The Windows USB driver framework CUDAL is based on the USBIO driver from Thesycon.  
This driver is not free and requires a licence.  
Texas Instruments have a license that allows its customers to do the following:  
Use the application examples included in the kit.  
Develop own applications using CUDAL (Chipcon USB Dongle Access Library) as  
long as all development and testing is done on the hardware (CC2511 USB Dongle)  
supplied in the development kit from Texas Instruments.  
Modify or add functionality in the CUDAL library.  
The customer must purchase their own license if they wish to do any of the following:  
Develop or test software on hardware that was not supplied in the development kit.  
Go into production with a product that uses the driver.  
The customer may not:  
Change, decompile, disassemble or in any way reverse engineer the cudal.sys file.  
Please contact Thesycon, www.thesycon.com, for information on how to obtain a licence.  
7.3 Other firmware modules and libraries  
To ease the firmware development there are also general firmware modules and libraries  
available for the CC2510 and CC2511.  
The most important is the HAL library which contains functions and macros to enable and use  
all peripheral units on the CC2510 and CC2511. There is also an EB library containing  
functions and macros to use the peripheral units found on the SmarRF04EB development  
card. These libraries are all documented in the HAL_CUL_EB_Software_User_Manual.pdf.  
Examples on how to use these libraries are found in the CC2510 application examples. These  
application examples are documented in CC2430DK_CC2510_CC1110_User_Manual.pdf.  
The software is found in “CC2510DK\App_Ex\cc2510”  
The CC2511 application examples use a library called CC2511AppExLibrary. This library  
contains the following modules:  
RF module, a simple RF protocol used in the CC2511 application examples  
Timer4 manager module, use timer4 to call functions at regular intervals.  
Buffer module, implementation of a FIFO (First In, First Out) buffer.  
This library is documented in a compressed HTML file, “CC2511AppExLibrary.chm”.  
The CC2511AppExLibrary is divided into two parts, one for the CC2510 EM and one for the  
CC2511 USB Dongle.  
The CC2511AppExLibrary and documentation is found here:  
CC2510 : “CC2511DK\embedded_sw\Library\cc2510\CC2511AppExLibrary”  
CC2511 : “CC2511DK\embedded_sw\Library\cc2511\CC2511AppExLibrary”  
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CC2511 Dongle  
8
CC2511 Dongle hardware description  
CC2511  
LED  
PCB  
antenna  
Button  
Line marking  
cutaway section  
of the dongle  
USB  
connector  
Debug  
connector  
GPIO  
testpins  
Figure 11: CC2511 Dongle top view  
Alternative  
debug  
connector  
Figure 12: CC2511 Dongle back view  
8.1 User Interface  
The CC2511 Dongle has one button and one LED that can be used to interact with the user.  
The LED is connected to pin P1_1. Setting P1_1 high (to logic 1) will turn the led on.  
The button is connected to pin P1_2 and GND. The pin P1_2 should be configured as an  
input with pull-up. The button is pushed when P1_2 is pulled low (to logic 0).  
8.2 USB interface  
The CC2511 Dongle has a standard USB connector. The dongle is powered through this  
connector. On the D+ line there is a pull-up used to identify the dongle as a full-speed USB  
unit on the USB bus. The pull-up can be controlled from the firmware, using P1_0. This  
enables the firmware to be connected to the USB bus for a period of time before it signals its  
presence to the USB hub.  
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8.3 Debug connector  
The CC2511 Dongle has debug connector (P3) that is compatible with the SoC debug  
connector on the SmartRF04EB. This enables the CC2511 Dongle to be programmed and  
debugged via the SmartRF04EB. The debug connector and the test pins on the CC2511  
Dongle can be removed to reduce its size. If that is done, programming and debugging can  
still be done using the connector on the back of the CC2511 Dongle (P5). The pin-out of the  
debug connector (P3) is given in Table 2.  
Pin  
1
Function  
GND  
2
VDD  
3
P2_2 / debug clock  
4
P2_1 / debug data  
5
P1_4  
6
P1_5  
7
RESET_N  
8
P1_6  
9
10  
Not connected (VDD by mounting R6, 0 Ohm)  
P1_7  
Table 2 Debug connector (P3) pin-out  
8.4 General purpose I/O connectors  
All GPIO pins on the CC2511 that are not used on the Dongle are routed to the P4 “Test pins”  
pin-row. They can be used for debugging or to connect external devices to the CC2511. The  
Pin  
1
2
Function  
P2_0  
GND  
3
4
5
6
7
8
9
P0_5  
P0_4  
P0_3  
P0_2  
P0_1  
P0_0  
VDD  
10  
P1_3  
Table 3: Test pins (P4) pin-out  
8.5 Cutaway section  
On the CC2511 Dongle the debug connector and the GPIO test-pin connector is mounted on  
a section of the Dongle that may be removed to minimise the CC2511 Dongle size. This  
cutaway section is marked with a white line, see Figure 11. If this section is removed from the  
dongle, the CC2511 can still be programmed and debugged using the alternative debug  
connector found on the back of the CC2511 Dongle, see Figure 12.  
8.6 RF Performance of PCB antenna  
The performance of the PCB antenna will be affected by the device the CC2511 USB dongle  
is connected to. Thus, when plugged into different computers or a USB extension cable  
differences in the CC2511 USB dongle RF performance must be expected. The maximum  
antenna gain measured with this design is 5.3 dBi. Thus, duty cycling or reduction of output  
power might be needed to ensure compliance with regulatory limits, see application note  
AN032 for more information about SRD regulations in the 2.4 GHz ISM band. AN032 is  
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CC2511 Dongle  
9
CC2511 Dongle schematics  
Figure 13: CC2511 Dongle schematic, page 1  
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CC2511 Dongle  
Figure 14 CC2511 Dongle schematic, page 2  
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CC2511 Dongle  
Figure 15 CC2511 Dongle schematic, page 3  
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CC2511 Dongle  
Figure 16 CC2511 Dongle schematic, page 4  
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CC2511 Dongle  
10 Document history  
Revision  
Date  
2006-07-06  
Description/Changes  
Initial release  
1.0  
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