AMIS-40616
LIN Transceiver with 5V Voltage Regulator
3.0 Ordering Information
Table 1: Ordering Information
Marketing Name
AMIS40616 AGA
Package
SOIC 150 14 GREEN (JEDEC MS-012)
Data Sheet
Temperature Range
-40°C…105°C
4.0 Key Technical Characteristics
Table 2: Key Technical Characteristics
Symbol
Parameter
Vbb
Nominal battery operating voltage
(1)
Vbb
Load dump protection
Ibb_SLP
Supply current in sleep mode
Regulated V
cc
output in normal mode, V
cc
load 1mA-30mA
(5)
Vcc_out
Regulated V
cc
output in normal mode, V
cc
load 0mA-50mA
Regulated V
cc
output in standby mode, V
cc
load 0mA-50mA
(2)
Iout_max
Maximum continuous V
cc
output current
(2)
Maximum V
cc
output current, thermal shutdown can occur
V_wake
Operating DC voltage on WAKE pin
Maximum rating voltage on WAKE pin
Tj
Junction thermal shutdown temperature
Tamb
Operating ambient temperature
(3)
Vesd
Electrostatic discharge voltage (LIN, INH, WAKE, VBB) System HBM
(4)
Electrostatic discharge voltage (LIN, INH, WAKE, VBB) HBM
(4)
Electrostatic discharge voltage (other pins) HBM
Notes:
1.
2.
3.
4.
5.
The applied transients shall be in accordance with ISO 7637 part 1, test pulse 5. The device complies with functional class C; class A can be reached
depending on the application and external components.
Current limitation is set above 50mA but thermal shutdown can occur for currents above 30mA.
Equivalent to discharging a 150pF capacitor through a 330Ω resistor conform to IEC Standard 1000-4-2. The specified values are a target to be verified on
first prototypes. Based on the evaluation results, additional external protection components might be recommended to reach the specified system ESD
levels.
Equivalent to discharging a 100pF capacitor through a 1.5kΩ resistor conform to MIL STD 883 method 3015.7.
Vcc voltage must be properly stabilized by external capacitors: capacitor of min. 80nF with ESR<10mΩ in parallel with a capacitor of min. 8µF, ESR<1Ω.
Min.
6
Typ.
12
4.9
4.83
4.8
30
50
0
-45
165
-40
-8
-4
-2
5.0
5.0
5.0
Max.
26
45
20
5.1
5.17
5.2
V
bb
V
bb
+ 0.3
195
+105
+8
+4
+2
Unit
V
V
µA
V
V
V
mA
mA
V
V
°C
°C
kV
kV
kV
AMI Semiconductor
– January 2007, M-20545-001
2
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