Documente tehnice
Specificatii
Marca
onsemiLogic Function
Inverter
Input Type
Schmitt Trigger
Tip iesire
Bipolar Schottky TTL
Number of Elements per Chip
6
Schmitt Trigger Input
Yes
Maximum Propagation Delay Time @ Maximum CL
18.5 ns @ 50 pF
Maximum High Level Output Current
-8mA
Maximum Low Level Output Current
8mA
Montare
Surface Mount
Tip pachet
TSSOP
Numar pini
14
Logic Family
VHC
Dimensiuni
5.1 x 4.5 x 1.05mm
Inaltime
1.05mm
Maximum Operating Supply Voltage
5.5 V
Minimum Operating Supply Voltage
2 V
Temperatura maxima de lucru
+125 °C
Propagation Delay Test Condition
50pF
Lungime
5.1mm
Latime
4.5mm
Frecventa minima de auto-rezonanta
-55 °C
Tara de origine
Philippines
Detalii produs
74VHC Family, ON Semiconductor
Advanced 74VHC High-Speed silicon-gate CMOS logic family products from ON Semiconductor offering high speed operation similar to equivalent Bipolar Schottky TTL, whilst maintaining the advantage of CMOS low power dissipation.
74VHC Family
Informatii indisponibile despre stoc
Incercati din nou mai tarziu
€ 0,27
Each (In a Tube of 96) (fara TVA)
€ 0,321
Each (In a Tube of 96) (cu TVA)
96
€ 0,27
Each (In a Tube of 96) (fara TVA)
€ 0,321
Each (In a Tube of 96) (cu TVA)
96
Documente tehnice
Specificatii
Marca
onsemiLogic Function
Inverter
Input Type
Schmitt Trigger
Tip iesire
Bipolar Schottky TTL
Number of Elements per Chip
6
Schmitt Trigger Input
Yes
Maximum Propagation Delay Time @ Maximum CL
18.5 ns @ 50 pF
Maximum High Level Output Current
-8mA
Maximum Low Level Output Current
8mA
Montare
Surface Mount
Tip pachet
TSSOP
Numar pini
14
Logic Family
VHC
Dimensiuni
5.1 x 4.5 x 1.05mm
Inaltime
1.05mm
Maximum Operating Supply Voltage
5.5 V
Minimum Operating Supply Voltage
2 V
Temperatura maxima de lucru
+125 °C
Propagation Delay Test Condition
50pF
Lungime
5.1mm
Latime
4.5mm
Frecventa minima de auto-rezonanta
-55 °C
Tara de origine
Philippines
Detalii produs
74VHC Family, ON Semiconductor
Advanced 74VHC High-Speed silicon-gate CMOS logic family products from ON Semiconductor offering high speed operation similar to equivalent Bipolar Schottky TTL, whilst maintaining the advantage of CMOS low power dissipation.