Tehniskie dokumenti
Specifikācija
Brand
onsemiLogic Family
VHC
Logic Function
Buffer
Number of Channels
1
Schmitt Trigger Input
No
Input Type
Single Ended
Output Type
3 State
Polarity
Non-Inverting
Mounting Type
Surface Mount
Package Type
TSOP
Pin Count
5
Maximum High Level Output Current
-8mA
Maximum Low Level Output Current
8mA
Maximum Propagation Delay Time @ Maximum CL
16 ns @ 50 pF
Dimensions
3 x 1.5 x 1mm
Maximum Operating Supply Voltage
5.5 V
Height
1mm
Width
1.5mm
Minimum Operating Temperature
-55 °C
Minimum Operating Supply Voltage
2 V
Maximum Operating Temperature
+125 °C
Propagation Delay Test Condition
50pF
Length
3mm
Izcelsmes valsts
Malaysia
Produkta apraksts
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
Noliktavas stāvoklis patreiz nav pieejams
Lūdzu pārbaudiet vēlreiz vēlāk
€ 0,076
Katrs (Rulli ir 3000) (bez PVN)
€ 0,092
Katrs (Rulli ir 3000) (Ieskaitot PVN)
3000
€ 0,076
Katrs (Rulli ir 3000) (bez PVN)
€ 0,092
Katrs (Rulli ir 3000) (Ieskaitot PVN)
3000
Tehniskie dokumenti
Specifikācija
Brand
onsemiLogic Family
VHC
Logic Function
Buffer
Number of Channels
1
Schmitt Trigger Input
No
Input Type
Single Ended
Output Type
3 State
Polarity
Non-Inverting
Mounting Type
Surface Mount
Package Type
TSOP
Pin Count
5
Maximum High Level Output Current
-8mA
Maximum Low Level Output Current
8mA
Maximum Propagation Delay Time @ Maximum CL
16 ns @ 50 pF
Dimensions
3 x 1.5 x 1mm
Maximum Operating Supply Voltage
5.5 V
Height
1mm
Width
1.5mm
Minimum Operating Temperature
-55 °C
Minimum Operating Supply Voltage
2 V
Maximum Operating Temperature
+125 °C
Propagation Delay Test Condition
50pF
Length
3mm
Izcelsmes valsts
Malaysia
Produkta apraksts
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.