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MN863440

Features: • Adopts a bidirectional shift register system• Provides an expansion pin so that the number of output pins can be increased.• Pulse width modulation function (OE1 to OE3)• Driver operating frequency: 500 kHz (maximum)• LCD drive voltage: VEE + 40 V (maximum...

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MN863440: Features: • Adopts a bidirectional shift register system• Provides an expansion pin so that the number of output pins can be increased.• Pulse width modulation function (OE1 to OE3...

MN863440 Data Sheet

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Part Number:
MN863440
Supply Ability:
5000

Price Break

  • Qty
  • 1~5000
  • Unit Price
  • Negotiable
  • Processing time
  • 15 Days
Total Cost: $ 0.00

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Upload time: 2024/11/26

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Product Details

Description



Features:

• Adopts a bidirectional shift register system
• Provides an expansion pin so that the number of output pins can be increased.
• Pulse width modulation function (OE1 to OE3)
• Driver operating frequency: 500 kHz (maximum)
• LCD drive voltage: VEE + 40 V (maximum)
• Driver output levels: 2 levels (The low level can be modified.)
• Supports TCP mounting.


Application

• LCD TV sets


Specifications

Item Symbols Rating Unit
Supply voltage 1 VDD − 0.3 to +4.5 V
Supply voltage 2 VGG VEE to VEE +44 V
Drive voltage VOFF VEE − 0.3 to VGG +0.3 V
Supply voltage 3 VEE − 24 to +0.3 V
Digital input voltage VI − 0.3 to VDD +0.3 V
Operating and storage temperature range Ta −30 to +85 °C
Operating ambient temperature Topr −20 to +75 °C
Storage temperature Tstg −55 to +120 °C

Note) 1. The absolute maximum ratings are limit values for stresses applied to the chip so that the chip will not be destroyed. Operation is not guaranteed within these ranges.
2. The operating and storage temperature range is the temperature range over which the chip will not be damaged even if operated. Note that performance is not guaranteed throughout this range.
3. These ratings are guaranteed values when the standard Panasonic package is used.
4. The power supply voltages must meet the condition VEE VGG at all times, including when power is being applied, during operation, and when power is being turned off.
5. When power is applied, certain sequences of power application can cause large currents to flow and permanently damage the IC. To avoid this problem, first apply VDD, and then, after VDD has reached 90% of its set voltage, apply VEE, VGG, and VOFF.




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