TC4424

Features:

`High Peak Output Current .........................................................3A
`Wide Operating Range ...............................................4.5V to 18V
` High Capacitive Load Drive Capability .............1800pF in 25nsec
` Short Delay Times .................................................. <40nsec Typ.
` Matched Rise/Fall Times
` Low Supply Current
- With Logic "1" Input ........................................................3.5mA
- With Logic "0" Input ....................................................... 350A
` Low Output Impedance ............................. ..................3.5 Typ.
` Latch-Up Protected ..Will Withstand 1.5A Reverse Current
` Logic Input Will Withstand Negative Swing Up to 5V
` ESD Protected .......................................................................4kV
`Pinouts Same as TC1426/27/28; TC4426/27/28




Pinout






Specifications

Parameter NameValuePowerDual Peak Output Current (mA)3000Output Resistance (RH/RL)(Max. @ 25°C)5/5Max. Supply Voltage (V)18Input/Output Delay (td1, td2)1 (ns)75/75ConfigurationNon-Inverting DescriptionLow-Side MOSFET Drivers, 2.0A to 9.0A Peak Output CurrentOperating Temp. Range (°C)-40 to 125

Parameter Name	Value
Power	Dual
Peak Output Current (mA)	3000
Output Resistance (RH/RL)(Max. @ 25°C)	5/5
Max. Supply Voltage (V)	18
Input/Output Delay (td1, td2)1 (ns)	75/75
Configuration	Non-Inverting
Description	Low-Side MOSFET Drivers, 2.0A to 9.0A Peak Output Current
Operating Temp. Range (°C)	-40 to 125

Supply Voltage ......................................................... +22V
Input Voltage, IN A or IN B ......VDD + 0.3V to GND 5.0V
Maximum Chip Temperature................................. +150°C
Storage Temperature Range ................ 65°C to +150°C
Lead Temperature (Soldering, 10 sec) ................. +300°C
Package Thermal Resistance
CerDIP R_J-A ................................................ 150°C/W
CerDIP R_J-C .................................................. 55°C/W
PDIP R_J-A ................................................... 125°C/W
PDIP R_J-C ..................................................... 45°C/W
SOIC R_J-A................................................... 155°C/W
SOIC R_J-C ..................................................... 75°C/W
Operating Temperature Range
C Version ............................................... 0°C to +70°C
I Version ............................................- 25°C to +85°C
E Version ...........................................- 40°C to +85°C
M Version ........................................- 55°C to +125°C
Package Power Dissipation (TA 70°C)
Plastic DIP ......................................................730mW
CerDIP ............................................................800mW
SOIC ...............................................................470mW





Description

The TC4423/4424/TC4424 are higher output current versions of the new TC4426/4427/4428 buffer/drivers, which, in turn, are improved versions of the earlier TC426/427/428 series. All three families are pin-compatible. The TC4423/4424/TC4424 drivers are capable of giving reliable service in far more demanding electrical environments than their antecedents. Although primarily intended for driving power MOSFETs, the TC4423/4424/TC4424 drivers are equally well-suited to driving any other load (capacitive, resistive, or inductive) which requires a low impedance driver capable of high peak currents and fast switching times. For example, heavily loaded clock lines, coaxial cables, or piezoelectric transducers can all be driven from the TC4423/4424/4425. The only known limitation on loading is the total power dissipated in the driver must be kept within the maximum power dissipation limits of the package.

The TC4423/4424/TC4424 are higher output current versions of the new TC4426/4427/4428 buffer/drivers, which, in turn, are improved versions of the earlier TC426/427/428 series. All three families are pin-compatible. The TC4423/ 4424/TC4424 drivers are capable of giving reliable service in far more demanding electrical environments than their antecedents.

Although primarily intended for driving power MOSFETs, the TC4423/4424/TC4424 drivers are equally well-suited to driving any other load (capacitive, resistive, or inductive) which requires a low impedance driver capable of high peak currents and fast switching times. For example, heavily loaded clock lines, coaxial cables, or piezoelectric transducers can all be driven from the TC4423/4424/TC4424. The only known limitation on loading is the total power dissipated in the driver must be kept within the maximum power dissipation limits of the package.