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TLE8250G_14 Datasheet, PDF (14/24 Pages) Infineon Technologies AG – High Speed CAN-Transceiver
TLE8250G
Electrical Characteristics
7
Electrical Characteristics
7.1
Functional Device Characteristics
Table 6 Electrical Characteristics
4.5 V < VCC < 5.5 V; RL = 60 Ω; -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 Remarks
Min. Typ. Max.
Current Consumption
7.1.1 Current consumption
7.1.2 Current consumption
7.1.3 Current consumption
ICC
–
ICC
–
ICC(ROM) –
6
10 mA “Recessive” state;
VTxD = VCC
45
70 mA “Dominant” state;
VTxD = 0 V
6
10 mA Receive-Only mode
NRM = “Low”
7.1.4 Current consumption
ICC(STB)
–
7
15 μA Stand-By mode;
TxD = NRM = “High”
Supply Resets
7.1.5 VCC under-voltage monitor
7.1.6 VCC under-voltage monitor
hysteresis
VCC(UV)
1.3
3.2
4.3 V –
VCC(UV,H) –
200 –
mV 1)
7.1.7 VCC under-voltage blanking
time
tblank(UV) –
15
–
μs 1)
Receiver Output: RxD
7.1.8 HIGH level output current
IRD,H
–
-4
-2
mA VRxD = 0.8 × VCC
VDIFF < 0.5 V
7.1.9 LOW level output current
IRD,L
2
4
–
mA VRxD = 0.2 × VCC
VDIFF > 0.9 V
Transmission Input: TxD
7.1.10 HIGH level input voltage
threshold
7.1.11 LOW level input voltage
threshold
7.1.12 TxD pull-up resistance
7.1.13 TxD input hysteresis
7.1.14 TxD permanent dominant
disable time
VTD,H
VTD,L
RTD
VHYS(TxD)
tTxD
–
0.3 ×
VCC
10
–
0.3
0.5 ×
VCC
0.4 ×
VCC
25
200
–
0.7 × V
VCC
–
V
“Recessive” state
“Dominant” state
50 kΩ –
–
mV 1)
1.0 ms –
Not Enable Input NEN
7.1.15 HIGH level input voltage
threshold
7.1.16 LOW level input voltage
threshold
7.1.17 NEN pull-up resistance
7.1.18 NEN input hysteresis
VNEN,H
–
VNEN,L
RNEN
VHYS(NEN)
0.3 ×
VCC
10
–
0.5 ×
VCC
0.4 ×
VCC
25
200
0.7 × V
VCC
–
V
Stand-By mode;
Normal Operation mode;
50 kΩ –
–
mV 1)
Data Sheet
14
Rev. 1.1, 2014-10-09