All trademarks are the property of their respective owners.
TI offers a broad portfolio of high speed (HS) CAN, CAN FD, and CAN SIC transceivers compatible with the ISO11898-2 high speed CAN standards. These include 5-V VCC only, 3.3-V VCC only, 5-V VCC with I/O level shifting and galvanic-isolated CAN transceivers. These CAN transceiver families include product mixes with varying features such as low-power standby modes with and without wake up, silent modes, loop back, and diagnostic modes.
The TI CAN EVM helps designers evaluate the operation and performance of various TI CAN transceivers in normal and SiC networks in accordance with CIA 601-4. It also provides bus termination, bus filtering, and protection concepts. The CAN transceivers are easily configured by the customer for the TCAN1042/51, TCAN1044(A)/57(A), and TCAN1462. Jumper settings, simple soldering tasks, and replacement of standard components are configured as needed. A separate EVM is available for the galvanic-isolated CAN transceiver family.
The CAN EVM has simple connections to all necessary pins of the CAN transceiver device, and jumpers where necessary to provide flexibility for device pin and CAN bus configuration. There are test points (loops) for all main points where probing is necessary for evaluation such as GND, VCC, TXD, RXD, CANH, CANL, pin 8 (mode pin), or pin 5 (VIO or NC). The EVM supports many options for CAN bus configuration. It is pre-configured with two 120-Ω resistors that are connected on the bus via jumpers: a single resistor is used with the EVM as a terminated line end (CAN is defined for 120-Ω impedance twisted pair cable) or both resistors in parallel for electrical measurements representing the 60-Ω load the transceiver detects in a properly terminated network (that is, 120-Ω termination resistors at both ends of the cable). If the application requires “split” termination, TVS diodes for protection, or Common Mode (CM) Choke, the EVM has footprints available for this via customer installation of the desired components.
This EVM also has the ability to connect a SiC network, as defined in CIA601-4, to the CAN bus lines via J7 and J8. Connecting the SIC network to CANH and CANL simulates a noisy CAN bus by adding more reflections and ringing to the signals. This can be used to test the reliability of the transceiver in a very noisy environment.
Figure 1-1 shows the EVM board image.