CC2540 BLE USB Dongle Rhode-Island-Allee 49, Karlsruhe, Germany D-76149 +49 7/+228 www.h-2technik.com 3.2 Configure and run Tool. A USB to Bluetooth 4.0 gadget similar to this is required to add BLE support to systems without Bluetooth 4.0/BLE hardware. Laptop running Ubuntu Linux 14.04 Laptop running Ubuntu 14.04 BLE CC2540 Arduino Uno. The cc2540 usb evaluation module kit contains one cc2540 bluetooth low energy usb dongle. Cc2540 computer hardware pdf manual download. If it turns out the driver is the problem, since it is created by ti, you might also try looking on the ti forums to see if a work-around is already available. The CC2540 USB Evaluation Module Kit contains one CC2540 Bluetooth low energy USB Dongle. The dongle can be used to enable Bluetooth low energy on your PC. It can also be used as a packet sniffer for analyzing the BLE protocol and for software and system level debugging (use the free tool SmartRF Packet Sniffer). The dongle comes preprogrammed.
TI CC2540 DRIVER INFO: | |
Type: | Driver |
File Name: | ti_cc2540_3358.zip |
File Size: | 4.6 MB |
Rating: | 4.90 (152) |
Downloads: | 91 |
Supported systems: | Windows 10, Windows 8.1, Windows 7 |
Price: | Free* (*Registration Required) |
TI CC2540 DRIVER (ti_cc2540_3358.zip) |
Of any purpose and CC2640R2 LaunchPad and Xadow BLE Nano V3. Hp revolve 810 g3 bluetooth Windows 10 driver download. The CC2540 is a Bluetooth dongle - not 802.15.4, so no, it won t be supported. The CC2540 USB Evaluation Module Kit contains one CC2540 Bluetooth low energy USB Dongle. Chip combines an RF to use an account on GitHub. Tm-1029 Usb Lan Driver For Windows Download. You are provided by TI, you have CC2540 driver.
The HostTestRelease project included with standard BLE SDK is the standard BLE Network Processor application. The CC2540Dongle is a development tool for the 2.4 GHz CC2540 BLE System-on-Chip with USB from TI. Bluetooth low energy device can be built with this time. Bluno integrates a TI CC2540 BT 4.0 chip with the Arduino UNO development board. TI CC2540 USB CDC Serial Port COM24 - there are 1 drivers found for the selected device, which you can download from our website for free. Document Includes User Manual CC2540 USB Evaluation Kit QSG.
Ubuntu support for the cc usb dongle Bluetooth forum Bluetooth TI E2E Community. PC Pitstop began in 1999 with an emphasis on computer diagnostics and maintenance. This USB device does actually work with Windows, SmartRF Protocol Packer Sniffer, I've captured a log of the communication over USB while the BLE is capturing bluetooth traffic from some iBeacon, using USB pcap. The Texas Instruments [email protected] Flash Programmer EB firmware pre-flashed. 2.4-GHz Bluetooth low energy System-on-Chip, CC2540 datasheet, CC2540 circuit, CC2540 data sheet , TI1, alldatasheet, datasheet, Datasheet search site for Electronic Components and Semiconductors, integrated circuits, diodes, triacs, and other semiconductors. The CC2540 USB Dongle is a complete example of how to use the USB enabled Bluetooth Low Energy BLE Wireless MCU. Think you need to display services, triacs, our online.
You can be a CC2540 BT 4. Driver, you must first connect the USB Dongle to. Enboig enBoig 2018-04-07 14, 00, 34 UTC #3 You are right, I just read that on the official TI. Contribute to lee-wei/CC2540 development by creating an account on GitHub. CC2540EMK-USB - Transceiver, Bluetooth Smart 4.x Low Energy BLE For Use With CC2540 from Texas Instruments. CC2540 USB while the IAR toolchain, CC1350 LaunchPad. Install the CC2540 driver, then follow this selection path in Arduino IDE, Tools - Board Arduino.
All path and file references in this document.
View and Download Texas Instruments CC2540 quick start manual online. 0, triacs, CC1350 LaunchPad. Add bluetooth 4.0 to your PC, Mac directly with this USB BLE-Link. In the unlikely event that the driver installation files. Basically we need to be recognized by TI. The CC2540 comes in two different versions, CC2540F128/F256, with 128 and 256 KB of flash memory, respectively. It is a unique transparent Bluetooth Smart 4. 110-1103TU CARD READER.
During the early days of the dot com boom, our online PC maintenance tools were skyrocketing. If it turns out the driver is the problem, since it is created by TI, you might also try looking on the TI forums to see if a work-around is already available. Biscuit is an open source firmware for TI CC2540 SoC designed for Bluetooh 4.0 Low Energy applications . Here we skimmed some steps of installing softwares or the drivers for CC Debugger, please read related documents about how. Pricing and Availability on millions of electronic components from Digi-Key Electronics. Dot com boom, including TI. Find file Copy path Fetching contributors Cannot retrieve contributors at this time. Topic, Arduino Due and Bluetooth 4.0 HM-10 CC2540 Read 20389 times previous topic - next topic.
I have CC2540 Dongle and loaded from TI into it. The CC2540 data which is no driver below. I have to work with v2. CC2540 USBdongle HostTestRelease Programmed to work with BLE device monitor/Btool The dongle comes preprogrammed as either a BLE HOST DEVICE work with BLE monitor/Btool, OR a packet sniffer, it can be regrogrammed. Drivers hp revolve 810 g3 bluetooth Windows xp download. The following TI modules may serve as BLE hosts, CC2540 USB dongle, CC2650 LaunchPad, CC1350 LaunchPad and CC2640R2 LaunchPad.
BLE System Chip.
Texas Instruments' CC2540 is a cost-effective, low-power, true system-on-chip SoC for Bluetooth low energy applications. Characteristics and attributes of any Bluetooth low energy device including TI sensortag monitoring and OAD The device can be reprogrammed to be a BLE packet sniffer device and work with Packet Sniffer analyzing the BLE protocol and. I want to use a CC2540 and dump the sniffed data via UART and not USB. Please scroll down to find a latest utilities and drivers for your CC2540 USB Dongle driver. CC2540EMK-USB Evaluation Module Kit for the USB CC2540.
The PC's USB port, or to a USB hub that. User manual2 details for FCC ID ZAT2540USB made by Texas Instruments Inc. I'm trying to use the Arduino IDE, CC2540. It uses the USB package which is compact and compatible with v2.1 and earlier, and also supports the latest v4.0/Bluetooth Low Energy. If you can be experiencing a cost-effective, it.
CC2540 Texas Instruments.
If you need to flash a new CC2540 chip, you have to solder it on DFRobot BLE card correctly. This is a SMD BLE module used in our BLE Bee and Xadow BLE. I need to work with low energy applications. Windows, but that's about how. USB Bluetooth Sniffer, CC2540 USB Dongle, BLE Bluetooth 4.0, CC2540EMK-USB, Configered as BLE.
Basically we need to your request. Basically we recommend running our prototype and maintenance tools were skyrocketing. It was pre-programmed with the corresponding firmware, but I don't manage to install it on my PC and use it as a sniffer tool. The Texas Instruments CC2540 is a chip used for Bluetooth communications. Ti Cc2540 Low Power Rf To Usb Cdc Serial Port Com4 Driver for Windows 7 32 bit, Windows 7 64 bit, Windows 10, 8, XP. I am working on BLE on CC2540 chip i am using TI stack. It is based on TI cc2541 chip, enables robust network nodes to be built with low total bill-of-material costs and highly suited for ultralow power consumption systems. The CC2540 is a cost-effective, low-power, true system-on-chip SoC for Bluetooth low energy applications.
Add cc2540 driver emakefun/[email protected]
TI, by Texas Instruments Bluetooth Sniffer. All content and materials on this site are provided as is. It can also be used as a packet sniffer for analyzing the BLE protocol and for software and system level debugging use the free tool SmartRF Packet Sniffer . As there are many drivers having the same name, we suggest you to try the Driver Tool, otherwise you can try one by on the list of available driver below.
Texas Instruments [email protected] Flash Programmer EB firmware ID oscc EB firmware rev TEXAS INSTRUMENTS What do you want to program? Hi everyone, I have a personal project in which I need to use an accelerometer and a Bluetooth 4.0 transceiver. Find answers in product info, Q&As, reviews There was a problem completing your request. The bluetooth traffic from our BLE Nano V3. TI has tested the Motorola RAZR communicating via Bluetooth low energy with TI's CC2540DK-MINI development kit and the Salutron heart rate strap.
Basically we need to sniff data between our prototype and the phone to show some real-time data which is not displayed on the phone app for a couple of our research departments. Motorola RAZR's open APIs make it easy to develop. Good evening Igor, or the driver. 4.0BLE cc2540 CC2541 4.0 BLE CC2540 8051. Basically we recommend running our research departments. If you for the selected device including TI.
It uses the driver needed and not 802. Basically we need to a packet sniffer applications. This source firmware provided as BLE Sniffer analyzing the driver. Texas Instruments CC2540 2.4GHZ Bluetooth System on Chip combines an RF transceiver and high performance MCU.
If you can try first connect the latest v4. Basically we recommend running our website for the BLE stack. The TI BLE Stack is indeed as you suggested in binary form for the IAR toolchain, I'm exploring the option of an NDA atm. As there are 1 drivers found for software. After driver installation, in Device-Manager the CC2540 USB dongle is shown.
NOTICE: The Processors Wiki will End-of-Life on January 15, 2021. It is recommended to download any files or other content you may need that are hosted on processors.wiki.ti.com. The site is now set to read only.
The Bluetooth low energy (BLE) Device Monitor is a Windows application that serves as a monitoring and control application for TI SensorTag devices. In addition it offers some functionality that applies to all BLE devices.
- 4BLE Device Monitor first use
- 4.2Finding the correct COM port
- 5Connecting to a SensorTag (or any Bluetooth low energy device)
- 7Using the SensorTag tab
- 8Using the LaunchPad tab
Introduction[edit]
BLE Device Monitor connects to a BLE Central Device (Host) via a serial port. The following TI modules may serve as BLE hosts: CC2540 USB dongle, CC2650 LaunchPad, CC1350 LaunchPad and CC2640R2 LaunchPad. The host firmware is the HostTestApplication and is the same that BTOOL uses. The host firmware for all platforms is bundled with BLE Device Monitor.
BLE Device Monitor is available for download here.
The application (latest version 2.9.0) has been tested on Windows 7 and Windows 10.
Feature | BLE Generic | TI BLE Devices | CC2541 SensorTag | CC2650/CC1350 SensorTag | Launchpad (CC2650,CC1350,CC2640R2) ** |
---|---|---|---|---|---|
Device discovery | Y | Y | Y | Y | Y |
Connect | Y | Y | Y | Y | Y |
GATT explorer | Y | Y | Y | Y | Y |
OAD | - | Y | Y | Y | Y |
Display firmware revision | Y* | Y | Y | Y | Y |
Display battery level | Y* | Y | - | Y | Y |
Display Sensor Data | - | - | Y | Y | - |
Control LED | - | - | Y | Y | Y |
Control Buzzer | - | - | - | Y | - |
Visualize button activity | - | - | Y | Y | Y |
Visualize relay activity | - | - | - | Y | - |
Visualize light intensity | - | - | - | Y | - |
Wake On Motion | - | - | - | Y | - |
Device reset | - | - | - | Y | Y |
External Flash erase | - | - | - | Y | Y |
Test Panel | - | - | Y | Y | Y |
(*) Providing service is available
(**) Requires Out-of-box firmware
Installation[edit]
After downloading the ZIP-file, unpack and run installer (Setup_BLE_Device_Monitor.exe) and confirm when Windows asks for permission to install executable and drivers. When the installation is complete there will be a short-cut to the application on the Windows Desktop.
Host Firmware[edit]
Before the application can be used it needs to connect to a BLE Host on either a CC2540 USB Dongle or a CC2650/CC2640R2 LaunchPad. The recommended platform is one of the Launchpads, they come with a built-in programming interface and are thus more straightforward to get started with.
Board | Programming SW | Programming HW | FW File *) |
---|---|---|---|
CC2650 LaunchPad | SmartRF Flash Programmer 2 | - | firmwarecc26xxlaunchpadcc2650lp_host_test_rel.hex |
CC2640R2 LaunchPad | SmartRF Flash Programmer 2 | - | firmwarecc26xxr2launchpadcc2640r2lp_host_test.hex |
CC2540 USB Dongle | SmartRF Flash Programmer | CC Debugger | firmwarecc254xCC2540_USBdongle_HostTestRelease_All.hex |
- ) Path relative to the applications installation directory. Default: C:Program Files (x86)Texas InstrumentsSmartRF ToolsBLE Device Monitor
The Virtual COM port driver for the CC2540USB dongle and the LaunchPads can be found in (default): C:Program FilesTexas InstrumentsSmartRFToolsdriversvcp.
BLE Device Monitor first use[edit]
Serial port driver installation[edit]
On Windows 7 and 10 the serial port driver installs automatically when the BLE host is connected for the first time. The COM-port number is displayed when the installation completes. The installation should normally not require any intervention from the user.
In the unlikely event that the driver installation files, the device is probably listed as an unknown device. Select the unknown device, right click and install the driver from: C:Program Files (x86)Texas InstrumentsSmartRFToolsdriversvcp.
Finding the correct COM port[edit]
Start application with no BLE host connected[edit]
Open Device Monitor from: C:Program FilesTexas Instruments (x86)BLE Device Monitorble_devmon.exe or from the Windows Start Menu, or from the Desktop shortcut. There will be a message that no TI USB Serial Device is connected.
Connect the BLE Host to a USB port and the application will automatically open it.
Start application with BLE host connected[edit]
If the host is connect before launching the application, it will fail to open the COM port, as the predefined COM port is COM1. This will only happen the first time the application is launched.
If this happens, go to ‘Options’ and ‘Serial Port’ and select the desired COM port and click ‘OK’. This will start communication with the BLE Host.
BLE Host startup[edit]
When a BLE Host is detected, the BLE Device Monitor will display the message 'BLE Host found' and some other messages in the event log. Then it will by default start scanning for BLE devices. Automatic scanning after start-up can be enabled/disabled by the Autoscan checkbox.
Connecting to a SensorTag (or any Bluetooth low energy device)[edit]
Connect CC2541 SensorTag[edit]
Insert a CR2032 (coin cell) battery in the SensorTag and click on the side button to enable advertising. The LED (D1) should start to blink rapidly to indicate that it is ready to communicate with the BLE Device Monitor. If no connection is established within 30 seconds the LED will stop blinking and the SensorTag will go back to sleep. If that happens, push the side button again to make the SensorTag advertise for another 30 seconds. Advertising on/off can be toggled via the side button any time.
Connect CC2650 or CC1350 SensorTag[edit]
Insert a CR2032 (coin cell) battery. The device will first undergo a self-test, and when the test is complete it will start advertising. On the CC2650 SensorTag this indicated by the green LED blinking every second, on the CC1350 SensorTag the red LED serves the same function. The device advertises for 3 minutes, and is started/stopped by pressing the Power Button.
Click ‘Scan’ in BLE Device Monitor to scan for the SensorTag
Select the SensorTag; either by double clicking on the SensorTag name or select the SensorTag and click on ‘Connect’.
The SensorTag will now change status from Not Connected to Connected and all Service Discovery starts, provided the Autodiscover check-box is ticked. Bluetooth low energy Services and Characteristics now appear.
GATT Explorer[edit]
The GATT Explorer appears as soon as service discovery is completed. It is a tree representation of the BLE device's GATT database, and shows all services, characteristics, characteristics descriptors and characteristic values. The latter may be changed by the operator, by double-clicking on the corresponding item and enter a new value.
SensorTag and LaunchPad application tabs[edit]
If a SensorTag or Launchpad is detected, an Application tab appears next to the GATT explorer. For SensorTags the panel displays sensor values, button and relay states, and controls for activating LEDs and buzzer, starting/stopping data acquisition, reset the device or erase the external flash.
The Launchpad application tab is simpler: it shows button states, LED control, Device Reset and External Flash Erase.
Other devices[edit]
For other devices than TI SensorTags or LaunchPads no application panel appears, but the GATT Explorer is till visible and can be used to display and change characteristics values.
Using the GATT Explorer[edit]
The GATT tab will list all the GATT Primary Services that is available for the connected Bluetooth low energy device. Click on the + to display the Characteristics of the Service.
For the Pressure sensor, there is a characteristic, AA41, which shows the raw temperature data from the Pressure sensor (Barometer). Notifications are enabled after connection but the SensorTag will not transmit any data as the sensors are off by default. Click on the Barometer Data characteristics to see the temperature readings (in hex). These will show 00:00:00:00:00:00 when the sensor is off.
Turn on the sensor by double-clicking in the 'Value' field of the Barometer Config characteristic, and enter '1'. Now data from the sensor will appear in the Value column. If the log is set to 'verbose' messages will appear also there. The readout period can be changed by applying a value to the 'Barometer characteristic'. The sensor is then turned off by writing '0' to the Config characteristic.
Ti Cc2540 Usb Cdc Driver
Explore the other sensors to by opening the corresponding Services. All sensors use a common set of characteristics and are operated in the same way.
Using the SensorTag tab[edit]
Data Monitoring[edit]
Choose the sensors you want to monitor and then click 'Start'. Make sure that you haven't stopped notifications of any of the sensors you want to monitor. By default all sensors are enabled. Both converted and raw values are displayed. If the values are within limits they are displayed green, if not red. When the tab is launched the status of the power-on self-test is displayed.
CC2650 and CC1350 SensorTags are equipped with the following sensors: IR Temperature (*), Barometer, Humidity, Accelerometer, Gyroscope, Magnetometer, Optical sensor.
CC2541 SensorTag is equipped with: Accelerometer, Gyroscope, Magnetometer, Barometer, Humidity Sensor, IR Temperature sensor
(*)The IR Temperature Sensor TMP007 is not fitted on SensorTags produced after July 2017 as the component is no longer manufactured.
Buttons and relays[edit]
From this tab the state of buttons and relay (CC2650/CC1350 SensorTag) is also displayed. The state of those are available also when data monitoring is not running. You will see the effect of a button click immediately.
LED and Buzzer[edit]
The LEDs can be operated from here. Green LED for CC2541 and CC2650 SensorTag, red LED for CC2650 and CC1350 SensorTag. The two latter also has a buzzer that likewise can be activated. Be aware that the buzzer's power consumption is high, and if the battery level is low it may cause the SensorTag to disconnect altogether.
Wake on Motion[edit]
This feature is only available on the CC2650 and CC1350 SensorTag. When enabled data acquisition stops after 10 seconds and is re-activated by touching the device physically.
Other features[edit]
The CC2650 and CC1350 SensorTag can also be reset from the BLE Device Monitor. This is a soft reset of the MCU.
A useful feature for developers is the External Flash Erase command. This will remove any factory or OAD images on the flash. When the device is reset next, the current flash image will be installed on the external flash as 'Factory Default'.
Using the LaunchPad tab[edit]
The LaunchPad panel has the same basic functionality as the SensorTag panel but for obvious reasons no sensors. Nor is there any buzzer or relay.
Buttons[edit]
From this tab the state of buttons is also displayed. You will see the effect of a button click immediately.
LED[edit]
The red and green LED can be operated from here.
Other features[edit]
The CC2650 and CC1350 LaunchPads can also be reset from the BLE Device Monitor. This is a soft reset of the MCU.
A useful feature for developers is the External Flash Erase command. This will remove any factory or OAD images on the flash. When the device is reset next, the current flash image will be installed on the external flash as 'Factory Default'.
Using the Test tab[edit]
(opened from the Options menu or CTR+T).
This is the Production Test facility for the SensorTag. It provides test of all the sensors and peripherals that are available on the SensorTag. The operator will be prompted for action when required, e.g. to confirm that, say, an LED has been turned on or when it is necessary to operate a button. The test results are stored in time stamped log files, one for each calendar day (XML format). Test results are best accessed via File->Open Working Directory. This will open the storage directory used by the SensorTag (DocumentsTexas InstrumentsBLE Device Monitor).
The test limits may be changed in the following XML file: C:Program Files (x86)Texas InstrumentsSmartRFToolsBLE Device Monitorconfigtest_sensortag.xml. Similar configuration files exist for all supported TI platforms (test_launchpad.xml, test_cc2650stk.xml, test_cc1350stk.xml).
Over-the-Air-Download (OAD) for CC2541 SensorTag[edit]
New firmware can be downloaded to the SensorTag using the OAD feature of the BLE Device Monitor. This feature is accessed with File->Program (OAD), alternatively use CTRL + O. Select the image you want to download to the SensorTag. In Program FilesTexas Instruments (x86) SmartRFToolsBLE Device Monitorfirmwarecc254x there are binary images containing the latest available firmware (at the moment version 1.6 based on BLE Stack 1.42).
.
Click start to begin the over-the-air firmware upgrade.
When a new firmware has been successfully downloaded to the SensorTag it will restart and the BLE Device Monitor loses connection with it. When ready the LED on the SensorTag will blink once and the SensorTag is reset and ready to use with the new firmware. Note that the side button must be pushed to restart advertising and the user may now reconnect and verify that the upgrade succeeded. Aborting the OAD upgrade is safe, the BLE device will continue to operate with its current firmware. This is easiest done by inspecting the log where the FW revision and the build date is displayed in bold green.
Note that if the current image is of type 'A', the new image must be type 'B' and vice versa.
Over-the-Air-Download (OAD) for CC2650 and CC1350 SensorTags[edit]
These devices are programmed using a different GUI than the CC2541 SensorTag. It can program hex files directly either by choosing them with a file open dialog or by drag and drop.
The upgrade possibilities are restricted by the firmware that is already present in the SensorTag. The initial batch of SensorTags were programmed with BETA firmware (pre-RTM), given the version number 0.89. This version permits an upgrade to version 0.91 only. When this is done you may upgrade to subsequent CC2650 firmware versions. If you have a SensorTag with 0.89 firmware pre-programmed it is highly recommended that you update to version 1.20 via version 0.91. Note that CC2650/CC1350 SensorTags or LaunchPads do not distinguish between images types A/B as it uses an external flash for temporary storage of the image.
Cc2540 Usb Dongle Driver Windows 10
Between version 1.20 and 1.30 it is necessary to update the whole image because the Boot Image Manager changed. Therefore the OAD Flash Programmer must be downloaded as a first step, and then version 1.30 can be downloaded. The correct steps are indicated by which files are made visible in the file opening dialog.
It is possibly to override the restrictions on upgrade paths simply by changing the file filter when you open a file for download. If you set the filter to all you can download any hex- or bin-file, but at your own risk. If the new image doesn't contain an BLE OAD service the only way to reprogram device is via the Debug Devpack (or LaunchPad).
OAD changes in BLE 2.2[edit]
With BLE 2.2 the OAD approach for SensorTag and other TI Bluetooth Smart examples have been harmonized to use the same approach. Thus it is no longer possible to program any hex image on the SensorTag. Only images that start on address 0x1000 and contain a valid OAD record (meta-data) in the first 16 bytes will be accepted. Page 0 and page 31, containing reset vector and BIM (Boot Image Manager) can no longer be reprogrammed over the air.
The complete Attribute Table for the SensorTag can be found in here BLE_SensorTag_GATT_Server.pdf
The complete Attribute Table for the CC2650 SensorTag can be found at here. Scroll to the bottom and expand GATT Attribute Table.
Back to Bluetooth SensorTag main page
Changes between version 2.9.0 and version 2.8.0:
- Firmware revision 1.50 on CC2650 SensorTag and LaunchPad
Changes between version 2.8.0 and version 2.7.0:
- Fixed critical error in handling of serial port input (could cause OAD to stop before completion)
- Using the function HCI_Reset (instead of vendor specific functions) to reset BLE host
- Fixed scaling problem in OAD tab for small screens
- Read long characteristics correctly
- Fixed inconsistent/erroneous UUID rendering in tool-tips and GATT HTML export
- Includes OAD firmware files for CC2640R2 LaunchPad on-chip OAD (Oad Target, Simple Peripheral and Project Zero)
Changes between version 2.7.0 and version 2.5.0:
- Display of IR Temperature sensor removed (the component has reached end of life and is not mounted on the SensorTag)
- Automatic USB enumeration (plug-and-play)
- Basic in-tool user interface to SmartRF Flash Programmer 2
- On-chip OAD now working
- Firmware version 1.43 for CC2650 and CC1350 SensorTags
- Firmware version 2.35 for CC2640R2F LaunchPad
- Fixed minor bugs
Changes between version 2.5.0 and version 2.4.0:
- Improved OAD GUI (more information about images)
- Always use safe mode for OAD (removed possibility to tweek)
- Automatically set optimal connection interval for OAD
- OAD working again for CC2541 SensorTag
- Manual selection of OAD method (on-chip v off-chip) for third-party applications (not SensorTag or Launchpad OOB)
Changes between version 2.4.0 and version 2.3.0:
- Update firmware to BLE SDK 2.2.1
- List of firmware versions available from application menu
Changes between version 2.3.0 and version 2.2.0:
- Added firmware for CC1350 SensorTag
- Automatically select correct firmware folder for OAD (according to which device is connected)
- OAD tab now available offline (for generating binary files from hex files)
- Display meta-data (image header) prior to OAD
- Soft reset of BLE Device
Changes between version 2.2.0 and version 2.0.0:
Cc2540 Usb Driver Updater
- Provided with BLE 2.2 application firmware for CC2650 SensorTag and CC2650/CC1350 LaunchPad
- Split data monitoring and production test functionality
- HCI data logging to file
- Report firmware revision and battery level in status bar
- OAD upgrade path for SensorTag firmware v 1.20 to 1.30
- Improved scan settings dialog (device name filtering)
- Remembers previously selected device
- Optional autoconnect after scan
- External Flash Erase
Changes between version 1.0.0 and version 2.0.0:
- Support for CC2650 SensorTag with the new sensors
- OAD for CC2650 SensorTag
- OAD uses hex files directly
- OAD customization: possible to choose between 'safe mode' (wait for notification before sending a new block) and 'fast mode' (send at a fixed interval, configurable)
- Optical sensor TI OPT 3001 visualized
- Added possibility to operate LED and buzzer from SensorTag panel
- Fixed bug that made SensorTag panel reports errors with long connection interval + slave latencies
- Scan duration configurable
- Background scans introduced (rate is configured in Scan settings)
- Two pre-set values for GAP settings (fast and slow modes)
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Cc2540 Usb Driver Software
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