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AMIS-40615 Datasheet, PDF (9/17 Pages) AMI SEMICONDUCTOR – LIN Transceiver with 3.3V Voltage Regulator
AMIS-40615
LIN Transceiver with 3.3V Voltage Regulator
Data Sheet
8.0 Electrical Characteristics
8.1 Definitions
All voltages are referenced to GND (Pin 13). Positive currents flow into the IC.
8.2 Absolute Maximum Ratings
Stresses above those listed in this clause may cause permanent device failure. Exposure to absolute maximum ratings for extended
periods may affect device reliability.
Table 5: Absolute Maximum Ratings
Symbol
Vbb
Vcc
Battery voltage on pin Vbb (1)
DC voltage on pin Vcc
Parameter
Min.
Max.
Unit
-0.3
+45
V
0
+7
V
I_Vcc
V_LIN
Current delivered by the Vcc regulator
LIN bus voltage (2)
50
mA
-45
+45
V
V_INH
V_WAKE
DC voltage on inhibit pin
DC voltage on WAKE pin
-0.3
Vbb + 0.3
V
-45
45
V
V_Dig_in
Tjunc
Vesd
DC input voltage on pins TxD, RxD, EN, STB
Maximum junction temperature
Electrostatic discharge voltage (pins LIN, INH, WAKE, and Vbb) system HBM (3)
Electrostatic discharge voltage (pins LIN, INH, WAKE, and Vbb) HBM (4)
Electrostatic discharge voltage (other pins) HBM (4)
Electrostatic discharge voltage; charge device model (5)
-0.3
Vcc + 0.3
V
-40
+165
°C
-8
+8
kV
-4
+4
kV
-2.0
+2.0
kV
-250
+250
V
Notes:
1. The applied transients shall be in accordance with ISO 7637 part 1, test pulses 1, 2, 3a, 3b, and 5. The device complies with functional class C; class A can be
reached depending on the application and external components.
2. The applied transients shall be in accordance with ISO 7637 part 1, test pulses 1, 2, 3a, and 3b. The device complies with functional class C; class A can be
reached depending on the application and external components.
3. 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.
4. Equivalent to discharging a 100pF capacitor through a 1.5k Ω resistor conform to MIL STD 883 method 3015.7.
5. Conform to EOS/ESD-DS5.3 (socket mode).
8.3 DC Characteristics
VBB = 5V to 26V; Tjunc = -40°C to +150°C; unless otherwise specified.
Table 6: DC Characteristics Supply
Symbol
Parameter
Pins VBB and VCC
Ibb_ON
Supply current
Ibb_STB
Supply current
Ibb_SLP
Supply current
Regulator output voltage
Vcc_out
Regulator output voltage
Regulator output voltage
Iout_max_cont
Maximum output current
Iout_max_conta
Maximum output current
Iout_max_abs
Absolute maximum output current
Iout_lim
Over-current limitation
Conditions
Min.
Typ.
Max.
Unit
Normal mode; LIN recessive
1
mA
Stand-by mode, Vbb = 5 – 18V
60
µA
Sleep mode, Vbb = 5 – 18V
20
µA
Normal mode, Vcc load 1mA-30mA
3.23
3.30
3.37
V
Normal mode, Vcc load 0mA-50mA
3.19
3.30
3.41
V
Stand-by mode, Vcc load 0mA-50mA 3.17
3.30
3.43
V
Vbb = 16V; Tamb = 105°C
30
mA
Vbb = 26V; limited lifetime
30
mA
Thermal shutdown can occur
50
mA
50
150
mA
AMI Semiconductor – March 2007, M-20544-001
9
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