Features: • Constant Frequency with Variable Duty Cycle Operation• Adjusts System Charging to Compensate for Changes in Ambient Temperature• Slew Rate Control to Reduce EMI• Lamp Pin to Indicate Abnormal Operating Conditions• Shorted Field Protection• Resumes No...
MCCF33095: Features: • Constant Frequency with Variable Duty Cycle Operation• Adjusts System Charging to Compensate for Changes in Ambient Temperature• Slew Rate Control to Reduce EMI• ...
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Rating |
Symbol |
Value |
Unit |
Steady State VCC, VIGN, VSTA |
9.0 to 24 |
V | |
VCC and VIGN Transient |
80 |
V | |
Bump Shear Strength (FlipChip) |
8.0 |
Grams/Bump | |
Thermal Characteristics (Thermal Resistance) JunctiontoSubstrate (FlipChip) JunctiontoAmbient (SO14) |
RJS RJA |
29 145 |
/W |
Junction Temperature FlipChip SO14 |
TJ |
170 150 |
|
Operating Ambient Temperature Range FlipChip SO14 |
TA |
40 to +170 40 to +125 |
|
The MCCF33095 (FlipChip) and MC33095 (Surface Mount) are regulator control integrated circuits designed for use in automotive 12 V alternator charging systems. Few external components are required for full system implementation. These devices provide control for a broad range of 12 V alternator charging systems when used in conjunction with the appropriate Motorola Power Darlington transistor to control the field current of the specific alternator.
Both versions have internal detection and protection features to withstand extreme electrical variations encountered in harsh automotive environments. FlipChip Technology allows the MCCF33095 to operate at higher ambient temperatures than the surface mount version in addition to withstanding severe vibration and thermal shock with a high degree of reliability.