Product overview
- Part Number
- 74AHCT374PW-Q100J
- Manufacturer
- Nexperia
- Product Category
- Flip Flops
- Description
- Flip Flops Octal Dtype flipflop positive edgetrigger
Documents & Media
- Datasheets
- 74AHCT374PW-Q100J
Product Attributes
- Input Type :
- TTL
- Logic Family :
- 74AHCT
- Logic Type :
- D-Type Flip-Flop
- Maximum Operating Temperature :
- + 125 C
- Minimum Operating Temperature :
- - 40 C
- Mounting Style :
- SMD/SMT
- Number of Circuits :
- 8
- Output Type :
- 3-State
- Package / Case :
- TSSOP-20
- Packaging :
- Reel
- Propagation Delay Time :
- 6.4 ns
- Qualification :
- AEC-Q100
- Supply Voltage - Max :
- 5.5 V
- Supply Voltage - Min :
- 2 V
Description
Flip Flops Octal Dtype flipflop positive edgetrigger
Price & Procurement
Associated Product
You May Also Be Interested In
Part | Manufacturer | Stock | Description |
---|---|---|---|
SKHWALA010 | Alps Alpine | 2,503 | Tactile Switches 6mm Dust Prf Snap-in h=4.3mm F=1.57N Gra |
SKQYPBE010 | Alps Alpine | 2,645 | Tactile Switches 6.1x3.7x2.5mm 260gf |
MJTP1122 | APEM | 539 | Tactile Switches SW TAC SPST 50MA 12VDC 6MM SMD |
SKHUPLE010 | Alps Alpine | 2,653 | Tactile Switches 6.0x6.0x2.5mm 160gf |
MJTP2205 | APEM | 1,640 | Tactile Switches SPST DUAL 0.05A 12VDC |
KSA0V511LFTR | C&K Switches | 1,325 | Tactile Switches Switch Tact Short Rt Ang Sealed |
TLE3303F160QG | E-Switch | 6,000 | Tactile Switches 50mA 12VDC SPST Gold Contacts |
TL2201EEZA1RBLK | E-Switch | 1 | Tactile Switches 100mA 30VDC Latching DPDT |
TL1100F160Q6JRED | E-Switch | 142 | Tactile Switches Thru hole 12mmx12mm RED Cap |
TL1100F260Q4JBLK | E-Switch | 3 | Tactile Switches Thru hole 12mmx12mm BLK Cap |
TL1100F260Q5JBLU | E-Switch | 192 | Tactile Switches Thru hole 12mmx12mm BLUE Cap |
TL1100F160Q4JBLK | E-Switch | 827 | Tactile Switches Tactile Switch 12mm x 12mm |
TL52AF160Q | E-Switch | 990 | Tactile Switches Sealed Radial Lead SPST-NO 0.05A 12V |
ADTS66KV | APEM | 433 | Tactile Switches SW TACT SPST 0.05A 12VDC |
TL2230OAF100 | E-Switch | 930 | Tactile Switches 100mA 30VDCMomentary |