AMIS−30600
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3
Table 1. PIN LIST AND DESCRIPTIONS
Pin Name Description
1 RxD Receive data output; low in dominant state
2 EN Enable input; transceiver in normal operation mode when high
3 VCC 5V supply input
4 TxD
Transmit data input; low in dominant state; internal 40 kW pullup
5 GND Ground
6 LIN
LIN bus output/input; low in dominant state; internal 30 kW pullup
7 VBB Battery supply input
8 INH Inhibit output; to control a voltage regulator; becomes high when wake−up via LIN bus occurs
Table 2. ABSOLUTE MAXIMUM RATINGS
Symbol Parameter Conditions Min Max Unit
V
CC
Supply Voltage −0.3 +7 V
V
BB
Battery Supply Voltage −0.3 +40 V
V
LIN
DC Voltage at Pin LIN 0 < V
CC
< 5.50 V −40 +40 V
V
INH
DC Voltage at Pin INH 0 < V
CC
< 5.50 V −0.3 V
BB
+ 0.3 V
V
TxD
DC Voltage at Pin TxD 0 < V
CC
< 5.50 V −0.3 V
CC
+ 0.3 V
V
RxD
DC Voltage at Pin RxD 0 < V
CC
< 5.50 V −0.3 V
CC
+ 0.3 V
V
EN
DC Voltage at Pin EN 0 < V
CC
< 5.50 V −0.3 V
CC
+ 0.3 V
V
esd(LIN)
Electrostatic Discharge Voltage at LIN Pin (Note 1) −4 +4 kV
V
esd
Electrostatic Discharge Voltage at All Other Pins (Note 1) −4 +4 kV
V
tran(LIN)
Transient Voltage at Pin LIN (Note 2) −150 +150 V
V
tran(VBB)
Transient Voltage at Pin V
BB
(Note 3) −150 +150 V
T
amb
Ambient Temperature −40 +150 °C
Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the
Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect
device reliability.
1. Standardized Human Body Model system ESD pulses in accordance to IEC 1000.4.2.
2. Applied transient waveforms in accordance with “ISO 7637 parts 1 & 3”, capacitive coupled test pulses 1 (−100 V), 2 (+100 V), 3a (−150 V),
and 3b (+150 V). See Figure 8.
3. Applied transient waveforms in accordance with “ISO 7637 parts 1 & 3”, direct coupled test pulses 1 (−100 V), 2 (+75 V), 3a (−150 V), 3b
(+150 V), and 5 (+80 V). See Figure 8.
Table 3. OPERATING RANGE
Symbol Parameter Min Typ Max Unit
V
CC
Supply Voltage 4.75 +5.25 V
V
BB
Battery Supply Voltage 7.3 +18 V
T
J
Maximum Junction Temperature −40 +150 °C
T
jsd
Thermal Shutdown Temperature +150 +170 +190 °C
R
thj−a
Thermal Resistance Junction−to−Ambient 185 °C/W