CAN Board - Datasheet
Table Of Contents
- FEATURES
- APPLICATIONS
- DESCRIPTION
- Function Tables
- Terminal Functions
- equivalent input and output schematic diagrams
- absolute maximum ratings over operating free-air temperature (see Note \ 1) (unless otherwise noted) †
- recommended operating conditions
- ELECTRICAL SPECIFICATIONS
- driver electrical characteristics over recommended operating conditions \ (unless otherwise noted)
- driver switching characteristics over recommended operating conditions(\ unless otherwise noted)
- receiver electrical characteristics over recommended operating condition\ s (unless otherwise noted)
- receiver switching characteristics over recommended operating conditions\ (unless otherwise noted)
- device switching characteristics over recommended operating conditions (\ unless otherwise noted)
- device control-pin characteristics over recommended operating conditions\ (unless otherwise noted)
- PARAMETER MEASUREMENT INFORMATION
- TYPICAL CHARACTERISTICS
- APPLICATION INFORMATION
- MECHANICAL DATA
- IMPORTANT NOTICE
SN65HVD230
SN65HVD231
SN65HVD232
SLOS346G – MARCH 2001 – REVISED JUNE 2002
20
www.ti.com
APPLICATION INFORMATION
TMS320Lx2403/6/7
CAN Bus Line
CAN-Controller
CANTX/IOPC6
SN65HVD230
Electronic Control Unit (ECU)
CANH CANL
DR
CANRX/IOPC7
Figure 28. Details of a Typical CAN Node
CANH
CANL
CAN Bus Line
ECU ECU ECU
12 n
120 Ω120 Ω
Figure 29. Typical CAN Network
The SN65HVD230/231/232 3.3-V CAN transceivers provide the interface between the 3.3-V
TMS320Lx2403/6/7 CAN DSPs and the differential bus line, and are designed to transmit data at signaling rates
up to 1 Mbps as defined by the ISO 11898 standard.
features of the SN65HVD230, SN65HVD231, and SN65HVD232
The SN65HVD230/231/232 are pin-compatible (but not functionally identical) with one another and, depending
upon the application, may be used with identical circuit boards.
These transceivers feature 3.3-V operation and standard compatibility with signaling rates up to 1 Mbps, and
also offer 16-kV HBM ESD protection on the bus pins, thermal shutdown protection, bus fault protection, and
open-circuit receiver failsafe. The fail-safe design of the receiver assures a logic high at the receiver output if
the bus wires become open circuited. If a high ambient operating environment temperature or excessive output
current result in thermal shutdown, the bus pins become high impedance, while the D and R pins default to a
logic high.