Product Family: Gates


This range of ICs offer single, double and triple gate counts made on a modern CMOS process when compared with historic HC or LS logic. The results are very small bare die with an ability to operate over a wider and lower supply voltage range.
Please select a product from the list below:

Available Products:


  • 54HC00 REV 2
    54HC00 provides x4 independent 2-input NAND gates performing the Boolean function Y = (A • B)\ or Y = A\ + B\. Inputs accept standard CMOS outputs & LSTTL outputs with pull-up resistors. Outputs are buffered for noise immunity + stability.
  • 54HC02
    The 54HC02 2-Input NOR Gate is made on a .35µm process & performs Boolean function Y = (A + B) or Y = A\ • B\ in positive logic. Inputs accept standard CMOS outputs or LSTTL outputs with use of pull-up resistors.
  • 54HC04
    The 54HC04 Hex inverter is made on a .35µm process and consists of six independent inverters with standard push-pull outputs. Each inverter performs the Boolean function Y = Ā.
  • 54HC08 REV 2
    The 54HC08 Quad 2-Input AND Gate provides provides four independent 2-input AND gates with standard push-pull outputs which perform the Boolean function: Y = A • B or Y = (A\ + B\)\.
  • 54HC32 REV 2
    The 54HC32 quad 2-input OR gate is produced on a 0.35µm CMOS process & provides x4 independent 2-input OR gates with standard push-pull outputs The gates perform the Boolean function Y = A⊕B or Y =(A\ • B\)\ .
  • 54LV04
    The 54LV04 Hex Inverter consists of x6 buffered independent gates perfoming Boolean function Y= Ā in positive logic. Optimised for low voltage operation, inputs are compatible with CMOS & also accept TTL directly at supply between 2.7 to 3.6V
  • 54LVC1G04
    The 54LVC1G04 single inverter gate performs the Boolean function Y = Ā. The inverter can be driven by either 3.3V or 5V inputs enabling use of this device in a mixed 3.3V and 5V environment.
  • 54LVC1G125
    The 54LVC1G125 is a single non-inverting buffer/line driver with 3-state output. The buffer can be driven by either 3.3V or 5V inputs enabling use of this device in a mixed 3.3V and 5V environment.
  • 54LVC1G34
    The 54LVC1G34 single buffer gate performs the Boolean function Y = A. The buffer can be driven by either 3.3V or 5V inputs enabling use of this device in a mixed 3.3V and 5V environment.
  • 54LVC1GU04
    The 54LVC1G04 single unbuffered inverter gate performs the Boolean function Y = Ā. The inverter can be driven by either 3.3V or 5V inputs enabling use of this device in a mixed 3.3V and 5V environment.
  • 54LVU04
    The 54LVU04 Hex Inverter comprises x6 unbuffered independent gates perfoming Boolean function Y= Ā in positive logic. Optimised for low voltage operation, inputs are compatible with CMOS & also accept TTL directly at supply between 2.7 to 3.6V
  • 74HC00 REV 2
    74HC00 provides x4 independent 2-input NAND gates performing the Boolean function Y = (A • B)\ or Y = A\ + B\. Inputs accept standard CMOS outputs & LSTTL outputs with pull-up resistors. Outputs are buffered for noise immunity + stability.
  • 74HC02
    The 74HC02 2-Input NOR Gate is made on a .35µm process & performs Boolean function Y = (A + B) or Y = A\ • B\ in positive logic. Inputs accept standard CMOS outputs or LSTTL outputs with use of pull-up resistors.
  • 74HC04
    The 74HC04 Hex inverter is made on a .35µm process and consists of six independent inverters with standard push-pull outputs. Each inverter performs the Boolean function Y = Ā.
  • 74HC08 REV 2
    The 74HC08 Quad 2-Input AND Gate provides provides four independent 2-input AND gates with standard push-pull outputs which perform the Boolean function: Y = A • B or Y = (A\ + B\)\.
  • 74HC32 REV 2
    The 74HC32 quad 2-input OR gate is produced on a 0.35µm CMOS process & provides x4 independent 2-input OR gates with standard push-pull outputs The gates perform the Boolean function Y = A⊕B or Y =(A\ • B\)\.
  • 74LV04
    The 74LV04 Hex Inverter consists of x6 buffered independent gates perfoming Boolean function Y= Ā in positive logic. Optimised for low voltage operation, inputs are compatible with CMOS & also accept TTL directly at supply between 2.7 to 3.6V
  • 74LVC1G04
    The 74LVC1G04 single inverter gate performs the Boolean function Y = Ā. The inverter can be driven by either 3.3V or 5V inputs enabling use of this device in a mixed 3.3V and 5V environment.
  • 74LVC1G125
    The 74LVC1G125 is a single non-inverting buffer/line driver with 3-state output. The buffer can be driven by either 3.3V or 5V inputs enabling use of this device in a mixed 3.3V and 5V environment.
  • 74LVC1G34
    The 74LVC1G34 single buffer gate performs the Boolean function Y = A. The buffer can be driven by either 3.3V or 5V inputs enabling use of this device in a mixed 3.3V and 5V environment.
  • 74LVC1GU04
    The 74LVC1G04 single unbuffered inverter gate performs the Boolean function Y = Ā. The inverter can be driven by either 3.3V or 5V inputs enabling use of this device in a mixed 3.3V and 5V environment.
  • 74LVU04
    The 74LVU04 Hex Inverter comprises x6 unbuffered independent gates perfoming Boolean function Y= Ā in positive logic. Optimised for low voltage operation, inputs are compatible with CMOS & also accept TTL directly at supply between 2.7 to 3.6V