TLE9350BSJ
High speed CAN FD transceiver
3
General product characteristics
3.1
Absolute maximum ratings
Table 2
Absolute maximum ratings voltages, currents and temperatures1)
All voltages with respect to ground; positive current flowing into pin;
(unless otherwise specified)
Parameter
Symbol
Values
Unit Note or
Test Condition
Number
Min. Typ. Max.
Voltages
Transmitter supply voltage
VCC
-0.3
-40
–
–
6.0
40
V
V
–
P_7.1.1
P_7.1.3
CANH and CANL DC voltage
versus GND
VCANH
–
–
–
Differential voltage between VCAN_Diff
CANH and CANL
-40
–
–
40
V
V
P_7.1.4
P_7.1.5
Voltage at the digital input
pins:
VMAX_IO
-0.3
6.0
NEN, NRM, TxD
Voltage at the digital output VMAX_RxD
-0.3
–
VCC +0.3 V
–
P_7.1.9
pin:
RxD
Currents
RxD output current
Temperatures
IRxD
-5
–
5
mA
–
P_7.1.6
Junction temperature
Storage temperature
ESD immunity
Tj
-40
-55
–
–
150
150
°C
°C
–
–
P_7.1.7
P_7.1.8
TS
ESD robustness at CANH,
CANL versus GND
VESD_HBM_CAN -10
VESD_HBM_ALL -2
–
–
10
2
kV
kV
HBM;
P_7.1.10
P_7.1.11
(100 pF via 1.5 kΩ)2)
ESD robustnessat all other
pins
HBM;
(100 pF via 1.5 kΩ)2)
ESD robustness at corner pins VESD_CDM_CP -750
–
–
750
500
V
V
CDM3)
CDM3)
P_7.1.14
P_7.1.12
ESD immunity at any other
pins
VESD_CDM
-500
1) Not subject to production test, specified by design.
2) Human body model (HBM) robustness according to AE - Q100-002.
3) Charge device model (CDM) robustness according to AEC - Q100-011 Rev-D; voltage level refers to test condition (TC)
mentioned in the standard.
Note:
Latchup robustness: class II according to AEC - Q100-04.
Datasheet
7
Rev. 1.0
2023-08-11