Tekninen dokumentti
Tekniset tiedot
Merkki
onsemiLogic Function
OR
Mounting Type
Surface Mount
Number Of Elements
1
Number of Inputs per Gate
2
Schmitt Trigger Input
No
Package Type
TSOP
Pin Count
5
Logic Family
VHC
Input Type
CMOS
Maximum Operating Supply Voltage
5.5 V
Maximum High Level Output Current
-8mA
Maximum Propagation Delay Time @ Maximum CL
15.5 ns @ 50 pF
Minimum Operating Supply Voltage
2 V
Maximum Low Level Output Current
8mA
Dimensions
3 x 1.5 x 1mm
Propagation Delay Test Condition
50pF
Minimum Operating Temperature
-55 °C
Maximum Operating Temperature
+125 °C
Output Type
Buffer, Single Ended
Length
3mm
Height
1mm
Width
1.5mm
Tuotetiedot
74VHC1G 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
Varastotiedot eivät ole tilapäisesti saatavilla.
Tarkista myöhemmin uudelleen.
€ 0,065
kpl (toimitus kelassa) (ilman ALV)
€ 0,081
kpl (toimitus kelassa) (Sis ALV:n)
100
€ 0,065
kpl (toimitus kelassa) (ilman ALV)
€ 0,081
kpl (toimitus kelassa) (Sis ALV:n)
100
Tekninen dokumentti
Tekniset tiedot
Merkki
onsemiLogic Function
OR
Mounting Type
Surface Mount
Number Of Elements
1
Number of Inputs per Gate
2
Schmitt Trigger Input
No
Package Type
TSOP
Pin Count
5
Logic Family
VHC
Input Type
CMOS
Maximum Operating Supply Voltage
5.5 V
Maximum High Level Output Current
-8mA
Maximum Propagation Delay Time @ Maximum CL
15.5 ns @ 50 pF
Minimum Operating Supply Voltage
2 V
Maximum Low Level Output Current
8mA
Dimensions
3 x 1.5 x 1mm
Propagation Delay Test Condition
50pF
Minimum Operating Temperature
-55 °C
Maximum Operating Temperature
+125 °C
Output Type
Buffer, Single Ended
Length
3mm
Height
1mm
Width
1.5mm
Tuotetiedot
74VHC1G 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.