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TLE6251-2G_11 Datasheet, PDF (28/36 Pages) Infineon Technologies AG – High Speed CAN-Transceiver with Wake and Failure Detection
TLE6251-2G
Electrical Characteristics
Table 7 Electrical Characteristics (cont’d)
4.75 V < VCC < 5.25 V; 3.0 V < VIO < 5.25 V; 5.5 V < VS < 18 V; RL = 60 Ω; normal mode; -40 °C < Tj < 150 °C; all
voltages with respect to ground; positive current flowing into pin; unless otherwise specified.
Pos. Parameter
Symbol Limit Values Unit Conditions
Min. Typ. Max.
Wake Input WK
10.1.27 High Level voltage range at
WK
VWK,H
VS - –
2V
VS + V
3V
VEN = VNSTB = 0 V, rising edge
10.1.28 Low Level voltage range at WK VWK,L - 27 –
VS - V
4V
VEN = VNSTB = 0 V, falling edge
10.1.29 HIGH level input current
10.1.30 LOW level current
Inhibit Output INH
IWKH -10 -5 –
μA VWK = Vs - 2 V
IWKL
–
5
10 μA VWK = Vs - 4 V
10.1.31 HIGH level voltage drop
ΔVH = VS - VINH
10.1.32 Leakage current
Bus Transmitter
ΔVH
–
–
IINH,lk
–
0.4 0.8 V IINH = -1 mA
0.8 1.6
1)IINH = -5 mA
–5
μA Sleep mode;
VINH = 0 V
10.1.33 CANL and CANH recessive VCANL/H 2.0 –
output voltage
3.0 V Normal Operation mode
no load
10.1.34 CANL and CANH recessive
output voltage
VCANL/H -0.1 –
0.1 V Sleep or Stand-By mode
no load
10.1.35 CANH to CANL recessive
output voltage difference
Vdiff
-500 –
50
mV VTxD = VIO;
no load
10.1.36 CANL dominant output voltage VCANL 0.5 –
10.1.37 CANH dominant output
voltage
VCANH 2.75 –
10.1.38 CANH, CANL dominant output Vdiff
voltage difference
1.5 –
10.1.39 CANL short circuit current
ICANLsc 50 80
2.25
4.5
3.0
200
V VTxD = 0 V;
50 Ω < RL < 65 Ω
V VTxD = 0 V;
50 Ω < RL < 65 Ω
V VTxD = 0 V;
50 Ω < RL < 65
mA VCANLshort = 18 V
10.1.40 CANH short circuit current
ICANHsc -200 -80 -50 mA VCANHshort = 0 V
10.1.41 Leakage current
ICANHL,lk -5
0
5
μA VS = VµC = VCC = 0 V;
0 V < VCANH,L < 5 V
Data Sheet
28
Rev. 1.1, 2011-06-06