SWCU193 April 2023 CC2340R2 , CC2340R5 , CC2340R5-Q1
Debug connections to the device are supported through an Arm serial wire debug (SWD) compliant interface. The SWD interface requires two connections:
The SWD interface uses the standard logic levels of the device for SWD communication. See the device-specific data sheet for input and output logic levels for a given supply voltage (VDDS). A SWCLK frequency of up to 10 MHz is supported by the DEBUGSS.
During SWD operation, the SWDIO line can be driven high or driven low by either the target device or the debug probe. As either device can drive the line, when ownership of the shared SWDIO line is switched between the device and the debug probe, undriven time slots are inserted as a part of the SWD protocol. The primary purpose of the pull-up resistor on the SWDIO line, and the pull-down resistor on the SWCLK line, is to place the SWD pins into a known state when no debug probe is attached. A minimum resistance of 100 kΩ is recommended by Arm. The internal pull-up/pull-down resistors fulfill this requirement and external resistors are not required for correct operation of the SWD interface.
After a power-on reset (POR), the target device configures the SWD pins in SWD mode with an internal pull-up resistor enabled on the SWDIO line and an internal pull-down resistor enabled on the SWCLK line. If the device configuration has not permanently disabled all SWD access, then the SWD interface is enabled during the boot process and a debug probe can be connected to the DEBUGSS.
In the event that a device was configured by software to enter SHUTDOWN mode, and a debug probe is then connected to the SWD pins with SWCLK active, wake-up logic triggers an exit from SHUTDOWN mode. A debug connection can then be established to the DEBUGSS after the reset sequence completes.
Upon physical connection of a debug probe, a configuration sequence must be sent from the debug probe to the target device to initiate a valid SWD connection with the SW-DP. An invalid sequence doesn't wake the device from SHUTDOWN mode. Once the sequence is transmitted and the SWD connection is established, communication with enabled debug access points is possible and the bootcode is alerted through assertion of DBGSS.DBGCTL[1] SWDSEL bit which is continuously monitored in bootcode. The debug probe must be disconnected by sending disconnection sequence from the debug probe to target device.
Bootcode can disable the SWD interface in DEBUGSS, freeing the IOs to be used for general purpose IO functionality. Once Bootcode disables SWD functionality, SWD functionality cannot be re-enabled other than by triggering a POR. A POR automatically re-enables the SWD functionality and puts the SWD pins into SWD mode with pull-up/pull-down resistors enabled. To regain debug access to a device, hold the device in a reset state with the RSTN pin during a POR. This prevents the bootcode from starting and lets the debug probe gain access to the device.