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TLE6255G Datasheet, PDF (14/23 Pages) Infineon Technologies AG – Single Wire CAN-Transceiver
TLE 6255 G
5.5 V < Vbatt < 16 V; 4.75 V < VCC < 5.25 V; – 40 °C < Tj < 150 °C; M0 = M1 = H;
RUL= 9.1 kΩ (connected between CANH and LOAD); RRSL = 39 kΩ; all voltages with
respect to ground; positive current defined flowing into pin; unless otherwise specified
Parameter
Sym-
Limit Values Unit Test Condition
bol
min. typ. max.
CANH as Bus Output / Transmitter
Offset wakeup output VOHWUO Vbatt – – Vbatt
high voltage
1.5
Fixed wakeup output VOHWUF 9.7 – 12
high voltage
Bus output high
VOH
voltage; normal and
high speed
Bus output current limit IOLI
Bus output leakage IOLK
current
3.60 4.0 4.55
200 250 350
– 10 – 200
Bus output leakage IOLK
current (loss of ground)
– 50 – 200
Slew rate rising edge, SCANH –
normal mode
Slew rate rising edge, SCANH –
wake-up mode
Slew rate rising edge; SCANH 5
high speed;
Transmit propagation tTCF 2
time; normal mode
2.0 –
4.0 –
16 25
56
Transmit propagation tTCF 1
time; wake-up mode
54
V 220 Ω < RUL < 9.1 kΩ;
TxD = L; M0 = L;
6 V < Vbatt < VOHWUF
V 220 Ω < RUL < 9.1 kΩ
TxD = L; M0 = L
VOHWUF < Vbatt < 16V
V 100 Ω < RUL < 9.1 kΩ
TxD = L; 6 V < Vbatt < 16 V
mA TxD = L; VCANH = 0 V
µA TxD = H; Tj < 125 °C;
Vbatt – 28 V < VCANH <
Vbatt – 1 V
µA 0 V < Vbatt < VUVOFF;
Vbatt – 28 V < VCANH <
Vbatt – 1 V
V/µs 20% < VCANH < 80%
V/µs 20% < VCANH < 80%
M0 = L; Vbatt = 12 V
V/µs 20% < VCANH < 80%
M1 = L; Tj < 125 °C
µs TxD = (H to L) to
VCANH = (VIH + 0.8 V)
1.0 µs < τ < 3.6 µs;
µs TxD = (H to L) to
VCANH = (VIH + 0.8 V);
M0 = L; Vbatt = 12 V;
1.0 µs < τ < 3.6 µs
Data Sheet Rev. 2.5
14
2003-11-27