STMicroelectronics Automotive ICs 4

  1. Home
  2. Automotive ICs
Manufacturers (1)
    • STMicroelectronics
    • Analog Devices
    • Infineon Technologies
    • NXP Semiconductors
    • Onsemi
    • Renesas Electronics
    • Texas Instruments
Temperature Grade
    • AUTOMOTIVE
    • COMMERCIAL
    • INDUSTRIAL
    • OTHER
No. of Terminals
    • 14
    • 16
    • 20
    • 24
    • 3
    • 32
    • 36
    • 5
    • 8
Package Code
    • DIP
    • SON
    • SOP
    • SSOP
    • TSSOP
    • ZIP
Package Shape
    • RECTANGULAR
Surface Mount
    • NO
    • YES
Package Body Material
    • PLASTIC/EPOXY
Maximum Supply Current (Isup)
    • .097 mA
    • 1 mA
    • 10 mA
    • 125 mA
    • 15 mA
    • 16 mA
    • 25 mA
    • 3 mA
    • 4.5 mA
    • 5 mA
    • 65 mA
    • 7.5 mA
    • 72 mA
Technology
    • BICMOS
    • BIPOLAR
    • CMOS
Screening Level
    • AEC-Q100
Terminal Form
    • GULL WING
    • NO LEAD
    • THROUGH-HOLE
Nominal Supply Voltage (Vsup)
    • 12 V
    • 13.1 V
    • 13.5 V
    • 14 V
    • 14.4 V
    • 3 V
Power Supplies (V)
    • 12
    • 13.1
    • 13.5
    • 14
    • 14.4
    • 3
    • 4.5/28
    • 5,7.5/12
    • 5.5/18
    • 5.5/27
    • 5.5/27,3/27
    • 5/27
    • 5/28
    • 6.5/27,3/27
    • 7/10
    • 7/18
    • 8.5/16
    • 8/10
    • 8/16
    • 9/17
Package Style (Meter)
    • IN-LINE
    • SMALL OUTLINE
    • SMALL OUTLINE, SHRINK PITCH
    • SMALL OUTLINE, THIN PROFILE, SHRINK PITCH
Package Equivalence Code
    • DIP14,.3
    • DIP16,.3
    • DIP20,.3
    • DIP8,.3
    • FLIP CHIP
    • SIP3,.1TB
    • SIP5,.1,67TB
    • SIP8,.1TB
    • SOLCC16,.14,25
    • SOLCC8,.12,25
    • SOP14,.25
    • SOP16,.25
    • SOP16,.4
    • SOP20,.4
    • SOP24,.4
    • SOP8,.25
    • SSOP36,.4,20
    • TSSOP24,.25
    • TSSOP32,.3
    • ZIP5,.15,.2,67TB
    • ZIP5H,.15,.7,67TB
Sub-Category
    • Automotive Circuits
Terminal Pitch
    • .5 mm
    • .635 mm
    • 1.27 mm
    • 1.7 mm
    • 2.54 mm
Maximum Operating Temperature
    • 100 Cel
    • 105 Cel
    • 125 Cel
    • 150 Cel
    • 70 Cel
Minimum Operating Temperature
    • -30 Cel
    • -40 Cel
    • 0 Cel
Terminal Finish
    • NICKEL GOLD PALLADIUM
    • NICKEL PALLADIUM GOLD SILVER
    • TIN
    • TIN LEAD
    • Tin/Lead (Sn/Pb)
Terminal Position
    • DUAL
    • SINGLE
    • ZIG-ZAG
JESD-30 Code
    • R-PDIP-T14
    • R-PDIP-T16
    • R-PDIP-T20
    • R-PDIP-T8
    • R-PDSO-G14
    • R-PDSO-G16
    • R-PDSO-G20
    • R-PDSO-G24
    • R-PDSO-G32
    • R-PDSO-G36
    • R-PDSO-G8
    • R-PDSO-N16
    • R-PDSO-N8
    • R-PZIP-T5
Moisture Sensitivity Level (MSL)
    • 1
    • 2
    • 2A
    • 3
Qualification
    • Not Qualified
JESD-609 Code
    • e0
    • e3
    • e4
Maximum Time At Peak Reflow Temperature (s)
    • 30
Peak Reflow Temperature (C)
    • 260
Reset All
Part RoHS Manufacturer Temperature Grade No. of Terminals Package Code Package Shape Surface Mount Package Body Material Maximum Supply Current (Isup) Technology Screening Level Terminal Form Nominal Supply Voltage (Vsup) Power Supplies (V) Package Style (Meter) Package Equivalence Code Sub-Category Terminal Pitch Maximum Operating Temperature Minimum Operating Temperature Terminal Finish Terminal Position JESD-30 Code Moisture Sensitivity Level (MSL) Qualification JESD-609 Code Maximum Time At Peak Reflow Temperature (s) Peak Reflow Temperature (C)

RBO40-40

STMicroelectronics

AUTOMOTIVE

3

NO

PLASTIC/EPOXY

SIP3,.1TB

Automotive Circuits

2.54 mm

150 Cel

-40 Cel

Tin/Lead (Sn/Pb)

SINGLE

Not Qualified

e0

RBO08-40

STMicroelectronics

AUTOMOTIVE

3

NO

PLASTIC/EPOXY

SIP3,.1TB

Automotive Circuits

2.54 mm

150 Cel

-40 Cel

Tin/Lead (Sn/Pb)

SINGLE

Not Qualified

e0

L9466

STMicroelectronics

8

NO

PLASTIC/EPOXY

8/10

SIP8,.1TB

Automotive Circuits

2.54 mm

SINGLE

Not Qualified

L497

STMicroelectronics

AUTOMOTIVE

16

DIP

RECTANGULAR

NO

PLASTIC/EPOXY

25 mA

THROUGH-HOLE

14.4 V

14.4

IN-LINE

DIP16,.3

Automotive Circuits

2.54 mm

125 Cel

-40 Cel

Tin/Lead (Sn/Pb)

DUAL

R-PDIP-T16

Not Qualified

e0

Automotive ICs

Automotive ICs are electronic components designed specifically for use in vehicles, such as cars, trucks, and buses. They are used to control various systems in the vehicle, including the engine, transmission, brakes, and safety systems.

Automotive ICs must meet specific requirements to be suitable for use in vehicles. They must be able to withstand the harsh environmental conditions found in vehicles, such as high temperatures, vibration, and moisture. Additionally, they must meet safety standards and be able to operate reliably in the presence of electromagnetic interference.

One of the main applications of automotive ICs is in engine control modules (ECMs), which are responsible for controlling the fuel injection and ignition timing in gasoline and diesel engines. Other applications include transmission control modules (TCMs), anti-lock brake system (ABS) controllers, and airbag control modules.

Automotive ICs use various types of semiconductor technologies, including microcontrollers, power MOSFETs, and voltage regulators. They are often designed to operate over a wide temperature range and have low power consumption to conserve battery life.