The CC13x2 and CC26x2 devices use standard boundary scan as defined under the IEEE 1149.1 JTAG standard. Each DIO has a dedicated boundary scan cell that contains six registers (two each for output pins, bidirectional control pins, and input pins), as shown in Figure 7-13.

Figure 7-13 Boundary Scan Cell

Of the six registers, three are shift registers and the other three are update registers. The shift registers are in a scan chain and connect across all the DIOs. There are few muxes inside each Boundary Scan Register cell that select between the test data and the functional data. The boundary scan implementation is intended to cover both DC parametric tests as well as IODFT testing. The 32 DIOs available in the CC13x2 and CC26x2 devices are categorized under different groups that are based on test pin muxing and tester-contacted and non-contacted I/Os. For further information regarding boundary scan I/O across different packages, see Table 7-25.

DC Parametric is tested using boundary scan access to each DIO.

1. For input-type DC parametric tests:
   • Configure all I/Os (except DIO2) into input mode by driving the bidirectional control pin to 1.
   • Test for V_IL by applying low voltage to all BIDIs other than the status output pin (DIO2).
   • Capture the response on input BSR registers and shift out the captured data on DIO2 using INTEST instruction.
   • Any pin that did not meet V_IL specifications will cause the status output to go to 1.
   • Repeat the same for V_IH by applying high voltage to all BIDIs other than the status output pin (DIO2).

     To test I_IH and I_IL, the previously discussed steps are required. Instead of voltage, however, current must be measured. To test the V_IL and V_IH of the status output, select the other DIO as the status output, mask out all other pins, and repeat the test. This feature is not comprehended in the boundary scan implementation, but can be achieved using memory map control of DIOs.

2. For output DC parametric tests:
   • Configure all I/Os (except DIO1) into output mode by driving the bidirectional control pin to 0.
   • Shift-in 0s to all the I/Os through DIO1.
   • Measure V_OL on all pins using EXTEST instruction.
   • Repeat the same by shifting 1s to all the I/Os through DIO1.
   • Measure V_OH on all pins.

   To test I_OH and I_OL, the same steps as previously discussed are required. However instead of voltage, current must be measured. To test V_OL and V_OH, test the status output, select the other DIO and repeat the test. This feature is not comprehended in the boundary scan implementation, but can be achieved using memory map control of DIOs.