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Table 8. DC CHARACTERISTICS
Symbol
TRANSMITTER DATA INPUT (PIN TxD)
I
Low−Level Input Current
IL
C
Input Capacitance
i
STANDBY AND ENABLE INPUTS (PINS STB AND EN)
V
High−Level Input Voltage
IH
V
Low−Level Input Voltage
IL
I
High−Level Input Current
IH
I
Low−Level Input Current
IL
C
Input Capacitance
i
RECEIVER DATA OUTPUT (PIN RxD)
I
High−Level Output Current
OH
I
Low−Level Output Current
OL
FLAG INDICATION OUTPUT (PIN ERR)
I
High−Level Output Current
OH
I
Low−Level Output Current
OL
LOCAL WAKE−UP INPUT (PIN WAKE)
I
High−Level Input Current
IH
I
Low−Level Input Current
IL
V
Threshold of the Local
threshold
Wake−up Comparator
INHIBIT OUTPUT (PIN INH)
VH
High Level Voltage Drop
DROP
I
Leakage Current in Sleep
LEAK
Mode
BUS LINES (PINS CANH AND CANL)
V
Recessive Bus Voltage
o(reces) (norm)
V
Recessive Bus Voltage
o(reces) (stby)
I
Recessive Output Current at
o(reces) (CANH)
Pin CANH
I
Recessive Output Current at
o(reces) (CANL)
Pin CANL
V
Dominant output Voltage at
o(dom) (CANH)
Pin CANH
V
Dominant Output Voltage at
o(dom) (CANL)
Pin CANL
V
Differential Bus Output
o(dif) (bus_dom)
Voltage (V
V
Differential Bus Output
o(dif) (bus_rec)
Voltage (V
I
Short−Circuit Output Current
o(sc) (CANH)
at Pin CANH
NCV7341
Parameter
V
TxD
Not Tested
V
STB
V
STB
V
RxD
V
VIO
V
RxD
V
TxD
V
ERR
V
VIO
V
ERR
V
WAKE
V
WAKE
Sleep or Standby Mode
I
= −180 mA
INH
T
amb
V
TxD
Mode
V
TxD
Mode
−35 V < V
0 V < V
−35 V < V
0 V < V
V
TxD
V
TxD
V
TxD
− V
)
42.5 W < R
CANH
CANL
V
TxD
− V
)
Load
CANH
CANL
V
CANH
http://onsemi.com
Conditions
= 0.3 V
VIO
= V
= 0.7V
EN
VIO
= V
= 0 V
EN
= V
− 0.4 V
VIO
= V
VCC
= 0.4 V
= 0 V Bus is Dominant
= V
− 0.4 V
VIO
= V
VCC
= 0.4 V
= V
− 1.9 V
VBAT
= V
− 3.1 V
VBAT
< 100°C
= V
; No Load, Normal
VCC
= V
; No Load, Standby
VCC
< +35 V;
CANH
< 5.25 V
CC
< +35 V;
CANL
< 5.25 V
VCC
= 0 V
= 0 V
= 0 V; Dominant;
< 60 W
LT
= V
; Recessive; No
CC
= 0 V; V
= 0 V
TxD
13
Min
Typ
Max
−70
−250
−500
1.0
5.0
10
0.7V
−
V
+
VIO
IO
0.3
−0.3
−
0.3V
VIO
1.0
5.0
10
−0.5
0
5.0
1.0
5.0
10
−1.0
−3.0
−6.0
2.0
5.0
12
−4.0
−20
−50
100
200
350
−1.0
−5.0
−10
1.0
5.0
10
V
−
V
−
V
VBAT
VBAT
VBAT
3 V
2.5 V
2 V
50
200
800
0
−
5.0
0
−
1.0
2.0
2.5
3.0
−100
0
100
−2.5
−
+2.5
−2.5
−
+2.5
3.0
3.6
4.25
0. 5
1.4
1.75
1.5
2.25
3.0
−120
0
+50
−45
−70
−120
Unit
mA
pF
V
V
mA
mA
pF
mA
mA
mA
mA
mA
mA
−
V
mV
mA
mA
V
mV
mA
mA
V
V
V
mV
mA
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