1# 2 3In this chapter, we first explain how Bluetooth chipsets are connected physically and then provide information about popular Bluetooth chipset and their use with BTstack. 4 5## HCI Interface 6 7The communication between a Host (a computer or an MCU) and a Host Controller (the actual Bluetooth chipset) follows the Host Controller Interface (HCI), see {@fig:HostChipsetConnection}. HCI defines how commands, events, asynchronous and synchronous data packets are exchanged. Asynchronous packets (ACL) are used for data transfer, while synchronous packets (SCO) are used for Voice with the Headset and the Hands-Free Profiles. 8 9{#fig:HostChipsetConnection} 10 11### HCI H2 12On desktop-class computers incl. laptops, USB is mainly used as HCI transport layer. For USB Bluetooth chipsets, there is little variation: most USB dongles on the market currently contain a Broadcom BCM20702 or a CSR 851x chipset. It is also called H2. 13 14On embedded systems, UART connections are used instead, although USB could be used as well. 15 16For UART connections, different transport layer variants exist. 17 18### HCI H4 19The most common one is the official "UART Transport", also called H4. It requires hardware flow control via the CTS/RTS lines and assumes no errors on the UART lines. 20 21### HCI H5 22The "Three-Wire UART Transport", also called H5, makes use of the SLIP protocol to transmit a packet and can deal with packet loss and bit-errors by retransmission. While it is possible to use H5 really with "three wires" without hardware handshake, we recommend to use a full UART with hardware handshake. If your design lacks the hardware handshake, H5 is your only option. 23 24### BCSP 25The predecessor of H5. The main difference to H5 is that Even Parity is used for BCSP. To use BCSP with BTstack, you use the H5 transport and can call *hci_transport_h5_enable_bcsp_mode* 26 27### eHCILL 28Finally, Texas Instruments extended H4 to create the "eHCILL transport" layer that allows both sides to enter sleep mode without loosing synchronisation. While it is easier to implement than H5, it it is only supported by TI chipsets and cannot handle packet loss or bit-errors. 29 30### H4 over SPI 31Chipsets from Dialog Semiconductor and EM Marin allow to send H4 formatted HCI packets via SPI. SPI has the benefit of a simpler implementation for both Host Controller and Host as it does not require an exact clock. The SPI Master, here the Host, provides the SPI Clock and the SPI Slave (Host Controller) only has to read and update it's data lines when the clock line changes. The EM9304 supports an SPI clock of up to 8 Mhz. However, an additional protocol is needed to let the Host know when the Host Controller has HCI packet for it. Often, an additional GPIO is used to signal this. 32 33### HCI Shortcomings 34 35Unfortunately, the HCI standard misses a few relevant details: 36 37 * For UART based connections, the initial baud rate isn't defined but most Bluetooth chipsets use 115200 baud. For better throughput, a higher baud rate is necessary, but there's no standard HCI command to change it. Instead, each vendor had to come up with their own set of vendor-specific commands. Sometimes, additional steps, e.g. doing a warm reset, are necessary to activate the baud rate change as well. 38 39 * Some Bluetooth chipsets don't have a unique MAC address. On start, the MAC address needs to be set, but there's no standard HCI command to set it. 40 41 * SCO data for Voice can either be transmitted via the HCI interface or via an explicit PCM/I2S interface on the chipset. Most chipsets default to the PCM/I2S interface. To use it via USB or for Wide-Band Speech in the Hands-Free Profile, the data needs to be delivered to the host MCU. Newer Bluetooth standards define a HCI command to configure the SCO routing, but it is not implemented in the chipsets we've tested so far. Instead, this is configured in a vendor-specific way as well. 42 43 * In addition, most vendors allow to patch or configure their chipsets at run time by sending custom commands to the chipset. Obviously, this is also vendor dependent. 44 45## Documentation and Support 46The level of developer documentation and support varies widely between the various Bluetooth chipset providers. 47 48From our experience, only Texas Instruments and EM Microelectronics provide all relevant information directly on their website. 49Nordic Semiconductor does not officially have Bluetooth chipsets with HCI interface, but their documentation on the nRF5 series is complete and very informative. 50TI and Nordic also provide excellent support via their respective web forum. 51 52Infineon acquired Cypress Semiconductor Corporation in 2020, which acquired the Bluetooth + Wifi division of Broadcom in 2016 provides 53support via their Community Forum. In addition, firmware updates (PatchRAM files) for Bluetooth + Wifi controllers 54are available via [Murata's Cypress GitHub](https://github.com/murata-wireless/cyw-bt-patch). 55 56CSR, which has been acquired by Qualcomm, provides all relevant information on their Support website after signing an NDA. 57 58 59## Chipset Overview 60 61| Chipset | Type | HCI Transport | BD_ADDR (1) | SCO over HCI (2) | LE DLE | Multiple LE Roles (3) | Classic SC (4) | LE Addr Resolution | BTstack folder | Comment | 62|--------------------------------------|------------------|----------------|--------------|------------------|------------|-----------------------|-------------------|--------------------|----------------|--------------------------------------------------| 63| Atmel ATWILC3000 | LE | H4 | Yes | n.a | No | No | n.a. | Don't know | atwilc3000 | BLE Firmware size: 60 kB | 64| Broadcom UART | Dual mode | H4, H5 | Rarely | Partially (2) | No | Maybe (3) | 43438: Yes | | bcm | Max UART baudrate 2 mbps | 65| Broadcom USB Dongles | Dual mode | USB | Yes | Yes | No | No | BCM20702: No | | bcm | | 66| CSR UART | Dual mode | H4, H5, BCSP | Rarely | Partially (2) | No | No | CSR8811: No | | csr | | 67| CSR USB Dongles | Dual mode | USB | Mostly | Yes | No | No | CSR8510: No | | csr | | 68| Infineon CYW207xx | Dual mode | H4, H5, USB | Don't know | Partially (2) | Yes | Yes | Yes | Yes | bcm | | 69| Infineon CYW208xx | Dual mode | H4, H5, USB | Don't know | Partially (2) | Yes | Yes | Yes | Don't know | bcm | Keep CTS high during power cycle | 70| Infineon CYW43xxx | Dual mode + Wifi | H4, H5 | Don't know | Partially (2) | Don't know | On newer versions | On wewer versions | On newer versions | bcm | Bluetooth + Wifi Combo Controller | 71| Infineon CYW5557x | Dual mode + Wifi | H4, H5 | No | Yes | Yes | Yes | Yes | Yes | bcm | Bautobaud-mode needed, see posix-h4-bcm | 72| Cypress PSoC 4 | LE | H4 | Don't know | n.a. | Yes | Don't know | n.a. | Don't know | | HCI Firmware part of PSoC Creator kits examples | 73| Dialog DA14531 | LE | H4 | No | n.a. | Yes | Yes | n.a. | Don't know | da145xx | Official HCI firmware included in BTstack | 74| Dialog DA14581 | LE | H4, SPI | No | n.a. | No | No | n.a. | Don't know | da145xx | Official HCI firmware included in BTstack | 75| Dialog DA14585 | LE | H4, SPI | No | n.a. | Yes | Yes | n.a. | Yes | da145xx | Official HCI firmware included in BTstack | 76| Dialog DA1469x | LE | H4, SPI | No | n.a. | Yes | Yes | n.a. | Yes | da145xx | HCI Firmware part of DA1469x SDK | 77| Espressif ESP32 | Dual mode + Wifi | VHCI, H4 | Yes | Yes | Yes | Yes | Yes | Don't know | | SoC with Bluetooth and Wifi | 78| Espressif ESP32-S3,C3 | LE + Wifi | VHCI, H4 | Yes | No | Yes | Yes | Yes | Yes | | SoC with Bluetooth and Wifi | 79| EM 9301 | LE | SPI, H4 | No | n.a. | No | No | n.a. | Don't know | em9301 | Custom HCI SPI implementation | 80| EM 9304 | LE | SPI, H4 | Yes | n.a. | Yes | Yes | n.a. | Don't know | em9301 | Custom HCI SPI implementation | 81| EM 9305 | LE | SPI, H4 | Yes | n.a. | Yes | Yes | n.a. | Yes | em9301 | Custom HCI SPI implementation | 82| Intel Dual Wireless 3165, 8260, 8265 | Dual mode | USB | Yes | Probably | Don't know | Don't know | Don't know | Don't know | intel | Firmware size: 400 kB | 83| Nordic nRF | LE | H4 | Fixed Random | n.a. | Yes | Yes | n.a. | Yes | | Requires HCI firmware | 84| NXP 88W8997 | Dual mode | H4 | Yes | Partially(2) | Yes | Yes | No | Yes | nxp | Requires initial firmware | 85| NXP IW416 | Dual mode | H4 | Yes | No | Yes | Yes | No | Yes | nxp | Requires initial firmware | 86| NXP IW61x | Dual mode | H4 | Yes | Partially(2) | Yes | Yes | No | Yes | nxp | Requires initial firmware | 87| STM STLC2500D | Classic | H4 | No | Don't know | n.a | n.a. | No | n.a. | stlc2500d | Custom deep sleep management not supported | 88| Renesas RX23W | LE | H4 | No | n.a. | Yes | Yes | n.a . | Don't know | | HCI Firmware part of BTTS | 89| Realtek RTL8822CS | Dual mode + Wifi | H5 | Yes | Yes | Don't know | Don't know | Don't know | Don't know | | Requires initial firmware + config | 90| Realtek USB Dongles | Dual mode + Wifi | USB | Yes | Yes | Don't know | Don't know | Don't know | Don't know | realtek | Requires initial firmware + config | 91| Toshiba TC35661 | Dual mode | H4 | No | No | No | No | No | No | tc3566 | Only -007/009 models provide full HCI. See below | 92| TI CC256x, WL183x | Dual mode | H4, H5, eHCILL | Yes | Yes | No | Yes for CC256XC | No | No | cc256x | Also WL185x, WL187x, and WL189x | 93 94**Notes**: 95 96 1. BD_ADDR: Indicates if Bluetooth chipset comes with its own valid MAC Address. Better Broadcom and CSR dongles usually come with a MAC address from the dongle manufacturer, but cheaper ones might come with identical addresses. 97 2. SCO over HCI: All Bluetooth Classic chipsets support SCO over HCI in general. BTstack can receive SCO packets without problems. However, only TI CC256x has support for using SCO buffers in the Controller and a useful flow control. On CSR/Broadcom/Cypress Controllers, BTstack cannot queue multiple SCO packets in the Controller. Instead, the SCO packet must be sent periodically at the right time - without a clear indication about when this time is. The current implementation observes the timestamps of the received SCO packets to schedule sending packets. With full control over the system and no other Bluetooth data, this can be flawless, but it's rather fragile in general. For these, it's necessary to use the I2S/PCM interface for stable operation. 98 , for those that are marked with No, we either didn't try or didn't found enough information to configure it correctly. 99 3. Multiple LE Roles: Apple uses Broadcom Bluetooth+Wifi in their iOS devices and newer iOS versions support multiple concurrent LE roles, 100 so at least some Broadcom models support multiple concurrent LE roles. 101 102## Atmel/Microchip 103 104The ATILC3000 Bluetooth/Wifi combo controller has been used with Linux on embedded devices by Atmel/Microchip. Drivers and documentation are available from a [GitHub repository](https://github.com/atwilc3000). The ATWILC3000 has a basic HCI implementation stored in ROM and requires a firmware image to be uploaded before it can be used. The BLE Controller is qualified as [QDID 99659](https://www.bluetooth.org/tpg/QLI_viewQDL.cfm?qid=36402). Please note: the BLE firmware is around 60 kB. It might need a separate Wifi firmware as well. 105 106**BD Addr** can be set with vendor-specific command although all chipsets have an official address stored. The BD_ADDR lookup results in "Newport Media Inc." which was [acquired by Atmel](http://www.atmel.com/about/news/release.aspx?reference=tcm:26-62532) in 2014. 107 108**Baud rate** can be set with a custom command. 109 110**BTstack integration**: *btstack_chipset_atwilc3000.c* contains the code to download the Bluetooth firmware image into the RAM of the ATWILC3000. After that, it can be normally used by BTstack. 111 112## Broadcom/Cypress/Infineon Semiconductor 113 114Before the Broadcom Wifi+Bluetooth division was taken over by Cypress Semiconductor, it was not possible to buy Broadcom chipset in low quantities. Nevertheless, module manufacturers like Ampak created modules that contained Broadcom BCM chipsets (Bluetooth as well as Bluetooth+Wifi combos) that might already have been pre-tested for FCC and similar certifications. 115 116A popular example is the Ampak AP6212A module that contains an BCM 43438A1 and is used on the Raspberry Pi 3, the RedBear Duo, and the RedBear IoT pHAT for older Raspberry Pi models. 117 118The CYW20704 A2 controller supports both DLE as well as multiple LE roles and is available e.g. from [LairdTech](https://www.lairdtech.com/bt850-bt851-and-bt860-series-modules-adapter-dvks-0002) as UART module (BT860), USB module (BT850), and USB dongle. 119 120Interestingly, the CYW20704 exhibits the same UART flow control bug as the CC2564. You can add ENABLE_CYPRESS_BAUDRATE_CHANGE_FLOWCONTROL_BUG_WORKAROUND to activate a workaround and/or read the bug & workardound description in the TI section below. 121 122The best source for documentation on vendor specific commands so far has been the source code for blueZ and the Bluedroid Bluetooth stack from Android, but with the takeover by Cypress, documentation is directly available. 123 124Broadcom USB dongles do not require special configuration, however SCO data is not routed over USB by default. 125 126The PSoC 4 SoCs can be programmed with the "BLE DTM" HCI Firmware from the PSoC Creator Kit Examples. The UART baudrate is set to 115200. For higher baud rates, the clocks probably need to be configured differently, as the IDE gives a warning about this. 127 128The CYW20819 can be used as a SoC with Cypress' Bluetooth stack. To use it as a regular Bluetooth Controller over HCI H4, CTS must be asserted during Power-Up / Reset. 129 130The CYW43xxx series contains a Wifi and Bluetooth Controller. The Bluetooth Controller can be used independent from the Wifi part. 131 132Newer Controller likes the CYW5557x series requires to enter a so-called autobaud mode by asserting CTS (low) during reset/power-up. In this mode, only a subset of 133HCI commands are available. Please see posix-h4-bcm port to get started. 134 135**Init scripts**: For UART connected chipsets, an init script has to be uploaded after power on. For Bluetooth chipsets that are used in Broadcom Wifi+Bluetooth combos, this file often can be found as a binary file in Linux distributions with the ending *'.hcd'* or as part of the WICED SDK as C source file that contains the init script as a data array for use without a file system. 136 137To find the correct file, Broadcom chipsets return their model number when asked for their local name. 138 139BTstack supports uploading of the init script in two variants: using .hcd files looked up by name in the posix-h4 port and by linking against the init script in the WICED port. While the init script is processed, the chipsets RTS line goes high, but only 2 ms after the command complete event for the last command from the init script was sent. BTstack waits for 10 ms after receiving the command complete event for the last command to avoid sending before RTS goes high and the command fails. 140 141**BD Addr** can be set with a custom command. A fixed address is provided on some modules, e.g. the AP6212A, but not on others. 142 143**SCO data** can be configured with a custom command found in the bluez sources. It works with USB chipsets. The chipsets don't implement the SCO Flow Control that is used by BTstack for UART connected devices. A forum suggests to send SCO packets as fast as they are received since both directions have the same constant speed. 144 145**Baud rate** can be set with custom command. The baud rate resets during the warm start after uploading the init script. So, the overall scheme is this: start at default baud rate, get local version info, send custom Broadcom baud rate change command, wait for response, set local UART to high baud rate, and then send init script. After sending the last command from the init script, reset the local UART. Finally, send custom baud rate change command, wait for response, and set local UART to high baud rate. 146 147**BTstack integration**: The common code for all Broadcom chipsets is provided by *btstack_chipset_bcm.c*. During the setup, *btstack_chipset_bcm_instance* function is used to get a *btstack_chipset_t* instance and passed to *hci_init* function. 148 149SCO Data can be routed over HCI for both USB dongles and UART connections, however BTstack only can send audio correctly over UART with newer Controllers that support SCO Flow Control. 150HSP and HFP Narrow Band Speech is supported via I2C/PCM pins. Newer Controllers provide an mSBC codec that allows to use HSP/HFP incl. WBS over PCM/I2S with ENABLE_BCM_PCM_WBS. 151 152 153## CSR / Qualcomm Incorporated 154 155CSR plc has been acquired by Qualcomm Incorporated in August 2015. 156 157Similar to Broadcom, the best source for documentation is the source code for blueZ. 158 159CSR USB dongles do not require special configuration and SCO data is routed over USB by default. 160 161CSR chipset do not require an actual init script in general, but they allow to configure the chipset via so-called PSKEYs. After setting one or more PSKEYs, a warm reset activates the new setting. 162 163**BD Addr** can be set via PSKEY. A fixed address can be provided if the chipset has some kind of persistent memory to store it. Most USB Bluetooth dongles have a fixed BD ADDR. 164 165**SCO data** can be configured via a set of PSKEYs. We haven't been able to route SCO data over HCI for UART connections yet. 166 167**Baud rate** can be set as part of the initial configuration and gets actived by the warm reset. 168 169**BTstack integration**: The common code for all Broadcom chipsets is provided by *btstack_chipset_csr.c*. During the setup, *btstack_chipset_csr_instance* function is used to get a *btstack_chipset_t* instance and passed to *hci_init* function. The baud rate is set during the general configuration. 170 171SCO Data is routed over HCI for USB dongles, but not for UART connections. HSP and HFP Narrow Band Speech is supported via I2C/PCM pins. 172 173 174## Dialog Semiconductor / Renesas 175 176Daialo Semiconductor has been aquired by Renesas in February 2021. 177 178They offers the DA145xx and DA1469xx series of LE-only SoCs that can be programmed with an HCI firmware. 179The HCI firmware can be uploaded on boot into SRAM or stored in the OTP (One-time programmable) memory, or in an external SPI. 180 181The 581 does not implement the Data Length Extension or supports multiple concurrent roles, while later versions support it. 182 183The mechanism to boot a firmware via UART/SPI has mostly stayed the same, while the set of supported interfaces and baudrates have slightly changed. 184 185The DA1469x uses an external flash. The DA 1469x SDK contains a HCI firmware that can be compiled and downloaded into flash using the SmartSnippets Studio. 186 187Unexpected issues: 188- DA14585 cannot scan for other devices if advertising is enabled alhtough it supports multiple Peripheral/Central roles (last check: 6.0.14.1114) 189 190**BD Addr** fixed to 80:EA:CA:00:00:01. No command in HCI firmware to set it differently. Random addresses could be used instead. 191 192**Baud rate**: The baud rate is fixed at 115200 with the provided firmware. A higher baud rate could be achieved by re-compiling the HCI firmware. 193 194**BTstack integration**: *btstack_chipset_da145xx.c* contains the code to download the provided HCI firmware into the SRAM of the DA145xx. After that, it can be used as any other HCI chipset. No special support needed for DA1469x after compiling and flashing the HCI firmware. 195 196 197## Espressif ESP32 198 199The ESP32 is a SoC with a built-in Dual mode Bluetooth and Wifi radio. The HCI Controller is implemented in software and accessed via a so called Virtual HCI (VHCI) interface. 200It supports both LE Data Length Extensions (DLE) as well as multiple LE roles. Since ESP-IDF v4.3, SCO-over-HCI is usable for HSP/HFP. 201 202The newer ESP32-S3 and ESP32-C3 SoCs have a newer LE Controller that also supports 2M-PHY, but does support Classic (BR/EDR) anymore. 203 204ALl can either be used as an SoC with the application running on the ESP32 itself or can be configured as a regular Bluetooth HCI Controller. 205BTstack can work either on the SoC itself or on another MCU with the ESP32 connected via 4-wire UART. 206 207See Espressif's [ESP-Hosted firmware](https://github.com/espressif/esp-hosted) for use as Bluetooth/Wifi Ccontroller. 208 209 210## EM Microelectronic Marin 211 212For a long time, the EM9301 has been the only Bluetooth Single-Mode LE chipset with an HCI interface. The EM9301 can be connected via SPI or UART. 213The UART interface does not support hardware flow control and is not recommended for use with BTstack. The SPI mode uses a proprietary but documented extension to implement flow control and signal if the EM9301 has data to send. 214 215In December 2016, EM released the new EM9304 that also features an HCI mode and adds support for optional Bluetooth 4.2. features. 216It supports the Data Length Extension and up to 8 LE roles. The EM9304 is a larger MCU that allows to run custom code on it. 217For this, an advanced mechanism to upload configuration and firmware to RAM or into an One-Time-Programmable area of 128 kB is supported. 218It supports a superset of the vendor specific commands of the EM9301. 219 220EM9304 is used by the 'stm32-l073rz-em9304' port in BTstack. The port.c file also contains an IRQ+DMA-driven implementation of the SPI H4 protocol specified in the [datasheet](http://www.emmicroelectronic.com/sites/default/files/public/products/datasheets/9304-ds_0.pdf). 221 222**BD Addr** must be set during startup for EM9301 since it does not have a stored fix address. The EM9304 comes with an valid address stored in OTP. 223 224**SCO data** is not supported since it is LE only. 225 226**Baud rate** can be set for UART mode. For SPI, the master controls the speed via the SPI Clock line. With 3.3V, 16 Mhz is supported. 227 228**Init scripts** are not required although it is possible to upload small firmware patches to RAM or the OTP memory (EM9304 only). 229 230**BTstack integration**: The common code for the EM9304 is provided by *btstack_chipset_em9301.c*. During the setup, *btstack_chipset_em9301_instance* function is used to get a *btstack_chipset_t* instance and passed to *hci_init* function. It enables to set the BD Addr during start. 231 232 233## Intel Dual Wireless 8260, 8265 234 235Wifi/Bluetooth combo cards mainly used in mobile computers. The Bluetooth part requires the upload of a firmware file and a configuration file. SCO, DLE, Multiple roles not tested. 236 237 238## Nordic nRF5 series 239 240The Single-Mode LE chipsets from the Nordic nRF5 series chipsets usually do not have an HCI interface. Instead, they provide an LE Bluetooth Stack as a binary library, the so-called *SoftDevices*. Developer can write their Bluetooth application on top of this library. Since the chipset can be programmed, it can also be loaded with a firmware that provides a regular HCI H4 interface for a Host. 241 242An interesting feature of the nRF5 chipsets is that they can support multiple LE roles at the same time, e.g. being Central in one connection and a Peripheral in another connection. Also, the nRF52 SoftDevice implementation supports the Bluetooth 4.2 Data Length Extension. 243 244Both nRF5 series, the nRF51 and the nRF52, can be used with an HCI firmware. The nRF51 does not support encrypted connections at the moment (November 18th, 2016) although this might become supported as well. 245 246**BD ADDR** is not set automatically. However, during production, a 64-bit random number is stored in the each chip. Nordic uses this random number as a random static address in their SoftDevice implementation. 247 248**SCO data** is not supported since it is LE only. 249 250**Baud rate** is fixed to 115200 by the patch although the firmware could be extended to support a baud rate change. 251 252**Init script** is not required. 253 254**BTstack integration**: Support for a nRF5 chipset with the Zephyr Controller is provided by *btstack_chipset_zephyr.c*. It queries the static random address during init. 255 256To use these chipsets with BTstack, you need to install an arm-none-eabi gcc toolchain and the nRF5x Command Line Tools incl. the J-Link drivers, checkout the Zephyr project, apply a minimal patch to help with using a random static address, and flash it onto the chipset: 257 258 * Install [J-Link Software and documentation pack](https://www.segger.com/jlink-software.html). 259 * Get nrfjprog as part of the [nRFx-Command-Line-Tools](http://www.nordicsemi.com/eng/Products/Bluetooth-low-energy/nRF52-DK). Click on Downloads tab on the top and look for your OS. 260 * [Checkout Zephyr and install toolchain](https://www.zephyrproject.org/doc/getting_started/getting_started.html). We recommend using the [arm-non-eabi gcc binaries](https://launchpad.net/gcc-arm-embedded) instead of compiling it yourself. At least on OS X, this failed for us. 261 262 * In *samples/bluetooth/hci_uart* compile the firmware for nRF52 Dev Kit 263 264<!-- --> 265 266 $ make BOARD=nrf52_pca10040 267 268 * Upload the firmware 269 270 $ ./flash_nrf52_pca10040.sh 271 272 * For the nRF51 Dev Kit, use `make BOARD=nrf51_pca10028` and `./flash_nrf51_10028.sh` with the nRF51 kit. 273 * The nRF5 dev kit acts as an LE HCI Controller with H4 interface. 274 275 276## NXP Semiconductors 277NXP Semiconductors acquired the Bluetooth + Wifi division of Marvel in 2019 and continues their products with new names. 278As the Controllers contain no Bluetooth firmware, the firmware needs to be uploaded on start. 279BTstack supports firmware upload for older Controllers with bootloader version v1, like the NXP 88W8997. 280 281**BD ADDR** is stored in Controller. 282 283**SCO data** is routed over HCI by default but does not support flow control. 284 285**Baud rate** is currently kept at 115200 286 287**Init script** is required. 288 289**BTstack integration**: firmware update required and implemented by *btstack_chipset_nxp.c* See port/posix-h4-nxp for details on how to use it. 290 291 292## Realtek 293 294Realtek provides Dual-Mode Bluetooth Controllers with USB and UART (H4/H5) interfaces as well as combined Bluetooth/WiFi Controllers, which are also available as M.2 modules for laptops. 295They commonly require to download a patch and a configuration file. Patch and configuration file can be found as part of their Linux drivers. 296 297**BD ADDR** is stored in Controller. 298 299**SCO data** can either be routed over HCI with working flow control or over I2S/PCM. The 8822CS supports mSBC codec internally. 300 301**Baud rate** is set by the config file. 302 303**Init script** is required. 304 305**BTstack integration**: H4/H5 Controller require firmware upload. 'rtk_attach' can be used for this. For USB Controllers, 306*btstack_chipset_realtek.c* implements the patch and config upload mechanism. See port/libusb for details on how to use it. 307 308 309## Renesas Electronics 310 311Please see Dialog Semiconducator for DA14xxx Bluetooth SoCs above. 312 313Renesas currently has 3 LE-only SoCs: the older 16-bit RL78 and the newer RX23W and the RA4W1. 314For the newer SoCs, Renesas provides a pre-compiled HCI firmware as well as an HCI project for their e2 Studio IDE. 315The HCI firmware needs to be programmed into the SoC Flash. 316 317Both newer SoC provide the newer Bluetooth 5.0 features like DLE, 2M-PHY, Long Range, and Multiple Roles. 318 319To install the HCI Firmware on the [Target Board for RX23W](https://www.renesas.com/us/en/products/software-tools/boards-and-kits/eval-kits/rx-family-target-board.html): 320 321 * Download [Bluetooth Test Tool Suite](https://www.renesas.com/eu/en/software/D6004348.html) 322 * Install [Renesas Flash Programmer](https://www.renesas.com/tw/en/products/software-tools/tools/programmer/renesas-flash-programmer-programming-gui.html) 323 * Follow instruction in [Target Board for RX23W Quick Start Guide](https://www.renesas.com/us/en/doc/products/mpumcu/apn/rx/013/r20qs0014ej0100-23wtbqsg.pdf) to flash `rx23w_uart_hci_sci8_br2000k_v1.00.mot` 324 325**BD Addr** fixed to 74:90:50:FF:FF:FF. A Windows tool in the BTTS suite allows to set a public Bluetooth Address. 326 327**Baud rate**: The baud rate is fixed at 115200 resp. 2000000 with the provided firmware images. With 2 mbps, there's no need to update the baudrate at run-time. 328 329**BTstack integration**: No special support needed. 330 331 332## STMicroelectronics 333 334STMicroelectronics has several different Bluetooth series. 335 336### STLC2500D 337 338It offers the Bluetooth V2.1 + EDR chipset STLC2500D that supports SPI and UART H4 connection. 339 340**BD Addr** can be set with custom command although all chipsets have an official address stored. 341 342**SCO data** might work. We didn't try. 343 344**Baud rate** can be set with custom command. The baud rate change of the chipset happens within 0.5 seconds. At least on BTstack, knowning exactly when the command was fully sent over the UART is non-trivial, so BTstack switches to the new baud rate after 100 ms to expect the command response on the new speed. 345 346**Init scripts** are not required although it is possible to upload firmware patches. 347 348**BTstack integration**: Support for the STLC2500C is provided by *btstack_chipset_stlc.c*. During the setup, *btstack_chipset_stlc2500d_instance* function is used to get a *btstack_chipset_t* instance and passed to *hci_init* function. It enables higher UART baud rate and to set the BD Addr during startup. 349 350 351### BlueNRG 352 353The BlueNRG series is an LE-only SoC which can be used with an HCI Firmware over a custom SPI interface. 354 355### STM32-WB5x 356 357The new STM32-WB5x series microcontroller is an SoC with a multi-protocol 2.4 Ghz radio co-processor. It provides a virtual HCI interface. 358 359 360## Texas Instruments CC256x series 361 362The Texas Instruments CC256x series is currently in its fourth iteration and provides a Classic-only (CC2560), a Dual-mode (CC2564), and a Classic + ANT (CC2567) model. A variant of the Dual-mode chipset is also integrated into TI's WiLink 8 Wifi+Bluetooth combo modules of the WL183x, WL185x, WL187x, and WL189x series. Some of the latter support ANT as well. 363 364The CC256x chipset is connected via an UART connection and supports the H4, H5 (since third iteration), and eHCILL. 365 366The latest generation `CC256xC` chipsets support multiple LE roles in parallel. 367 368TI provides an alternative firmware that integrates an SBC Codec in the Bluetooth Controller itself for Assisted A2DP (A3DP) and Assisted HFP (Wide-band speech support). While this can save computation and code size on the main host, it cannot be used together with BLE, making it useless in most projects. 369 370The different CC256x chipset can be identified by the LMP Subversion returned by the *hci_read_local_version_information* command. TI also uses a numeric way (AKA) to identify their chipsets. The table shows the LMP Subversion and AKA number for the CC256x and the WL18xx series. 371 372Chipset | LMP Subversion | AKA 373--------|----------------|------- 374CC2560 | 0x191f | 6.2.31 375CC2560A, CC2564, CC2567 | 0x1B0F | 6.6.15 376CC256xB | 0x1B90 | 6.7.16 377CC256xC | 0x9a1a | 6.12.26 378WL18xx | 0xac20 | 11.8.32 379 380**SCO data:** Routing of SCO data can be configured with the `HCI_VS_Write_SCO_Configuration` command. 381 382**Baud rate** can be set with `HCI_VS_Update_UART_HCI_Baudrate`. The chipset confirms the change with a command complete event after which the local UART is set to the new speed. Oddly enough, the CC256x chipsets ignore the incoming CTS line during this particular command complete response. 383 384If you've implemented the hal_uart_dma.h without an additional ring buffer (as recommended!) and you have a bit of delay, e.g. because of thread switching on a RTOS, this could cause a UART overrun. 385If this happens, BTstack provides a workaround in the HCI H4 transport implementation by adding `ENABLE_CC256X_BAUDRATE_CHANGE_FLOWCONTROL_BUG_WORKAROUND`. 386If this is enabled, the H4 transport layer will resort to "deep packet inspection" to first check if its a TI controller and then wait for the HCI_VS_Update_UART_HCI_Baudrate. 387When detected, it will tweak the next UART read to expect the HCI Command Complete event. 388 389**BD Addr** can be set with `HCI_VS_Write_BD_Addr` although all chipsets have an official address stored. 390 391**Init Scripts.** In order to use the CC256x chipset an initialization script must be obtained and converted into a C file for use with BTstack. For newer revisions, TI provides a main.bts and a ble_add_on.bts that need to be combined. 392 393The Makefile at *chipset/cc256x/Makefile.inc* is able to automatically download and convert the requested file. It does this by: 394 395- Downloading one or more `BTS files` for your chipset. 396- Running the Python script: 397 398<!-- --> 399 400 ./convert_bts_init_scripts.py main.bts [ble_add_on.bts] output_file.c 401 402**BTstack integration**: 403- The common code for all CC256x chipsets is provided by *btstack_chipset_cc256x.c*. During the setup, *btstack_chipset_cc256x_instance* function is used to get a *btstack_chipset_t* instance and passed to *hci_init* function. *btstack_chipset_cc256x_lmp_subversion* provides the LMP Subversion for the selected init script. 404- SCO Data is be routed over HCI with `ENABLE_SCO_OVER_HCI` or to PCM/I2S with `ENABLE_SCO_OVER_PCM`. Wide-band speech is supported in both cases. For SCO-over-HCI, BTstack implements the mSBC Codec. For SCO-over-I2S, Assisted HFP can be used. 405- Assisted HFP: BTstack provides support for Assisted HFP mode if enabled with `ENABLE_CC256X_ASSISTED_HFP` and SCO is routed over PCM/I2S with `ENABLE_SCO_OVER_PCM`. During startup, the PCM/I2S is configured and the HFP implementation will enable/disable the mSBC Codec for Wide-band-speech when needed. 406 407Known issues: 408- The CC2564C v1.5 may loose the connection in Peripheral role with a Slave Latency > 0 when the Central updates Connection Parameters. See [https://github.com/bluekitchen/btstack/issues/429](Issue #429) 409 410 411## Toshiba 412 413The Toshiba TC35661 Dual-Mode chipset is available in three variants: standalone incl. binary Bluetooth stack, as a module with embedded stack or with a regular HCI interface. The HCI variant has the model number TC35661–007 resp TC35561-009 for the newer silicon. 414 415We first tried their USB Evaluation Stick that contains an USB-to-UART adapter and the PAN1026 module that contains the TC35661 -501. While it does support the HCI interface and Bluetooth Classic operations worked as expected, LE HCI Commands are not supported. With the -007 and the -009 models, everything works as expected. 416 417**SCO data** does not seem to be supported. 418 419**Baud rate** can be set with custom command. 420 421**BD Addr ** must be set with custom command. It does not have a stored valid public BD Addr. 422 423**Init Script** is not required. A patch file might be uploaded. 424 425**BTstack integration**: Support for the TC35661 series is provided by *btstack_chipset_tc3566x.c*. During the setup, *btstack_chipset_tc3566x_instance* function is used to get a *btstack_chipset_t* instance and passed to *hci_init* function. It enables higher UART baud rate and sets the BD Addr during startup. 426
