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MC33388 Datasheet, PDF (3/28 Pages) Motorola, Inc – Fault Tolerant CAN Interface
MC33388
ELECTRICAL CHARACTERISTICS VDD = 4,75 to 5,25 ; VBAT=6 to 27V ; Tamb = -40 to 125°C unless otherwise specified
Conditions
Symbol
Min
Typ
STB, EN, TX Pins
High Level Input Voltage
Low Level Input Voltage
High Level Input Current (STB, EN) (Vi = 4V)
Low Level Input Current (STB, EN) (Vi = 1V)
TX High Level Input Current (Vi = 4V)
TX Low Level Input Current (Vi = 1V)
Forced VBAT Standby Mode (Fail Safe) Threshold
Battery Voltage For Setting Power On Flag
RX, NERR Pins
High Level Output Voltage NERR (I0 = -100µA)
High Level Output Voltage RX (I0 = -250µA)
Low Level Output Voltage (I0 = 1.5mA)
WAKE Pin (must be connected to gnd or BAT if not used)
Typical Wake Up Threshold (VSTB = 0V), High to Low
Transition, VBAT=6V to 18V. NOTE1.
Typical Wake Up Threshold (VSTB = 0V), Low To High
Transition, VBAT=6V to 18V. NOTE1.
Wake Up Threshold Hysteresis
Wake Up Threshold, High to Low Transition at VBAT=12V
Wake Up Threshold, Low To High Transition at VBAT=12V
INH Pin
High Level Voltage Drop (IINH = -0.2mA, INH High)
Leakage Current (Sleep Mode ; VINH = 0V)
CANH, CANL Pins
Differential Receiver, Recessive To Dominant Threshold
(By Definition, Vdiff=VCANH-VCANL)
Differential Receiver, Dominant To Recessive Threshold
(Bus Failures 1, 2, 5)
CANH Recessive Output Voltage
TX = VDD ; R(RTH) < 4k
CANL Recessive Output Voltage
TX = VDD ; R(RTL) < 4k
CANH Output Voltage, Dominant
TX = 0V; I CANH = -40mA; Normal Operating Mode
Vih
Vil
Iih
Iil
ITX
ITX
VDD
VBAT
Voh
Voh
Vol
Wuthreshl
Wuthreslh
Wuhyst
Wuhl
Wulh
Vdrop
Il inh
Vdiff1
Vdiff2
VCANH
VCANL
VCANH
0.7*VDD
-0.3
10
-25
-100
3
1.5
20
20
-80
-320
4
3
VDD - 0.9
VDD - 0.9
0
0.44 VBAT
0.57 VBAT
500
3.6
6.2
0
0
-3.2
-3.2
VDD - 0.2
VDD - 1.4
Max
VDD+0.3V
0.3 * VDD
40
-200
-800
4.7
4
VDD
VDD
0.9
6.5
7.5
0.8
5
-2.5
-2.5
0.2
Unit
V
V
µA
µA
µA
µA
V
V
V
V
V
V
V
mV
V
V
V
µA
V
V
V
V
V
MC33388
MOTOROLA
3