SN74LS153N Texas Instruments IC DUAL 4-1 SEL/MUX 16-DIP
Integraallülitused (IC-d)
Tootja number:
SN74LS153N
Tootja:
Tootekategooria:
Kirjeldus:
IC DUAL 4-1 SEL/MUX 16-DIP
RoHs olek:
Pliivaba / RoHS-iga ühilduv Andmetabelid:
SN74LS153N Andmetabelid(PDF)
Ahel :
2 x 4:1
Osa olek :
Active
Paigaldustüüp :
Through Hole
Pakend/ümbris :
16-DIP (0.300", 7.62mm)
Pakendamine :
Tube
Pinge – toide :
4.75 V ~ 5.25 V
seeria :
74LS
Sõltumatud vooluringid :
1
Tarnija seadmepakett :
16-PDIP
Töötemperatuur :
0°C ~ 70°C
Tüüp :
Multiplexer
Vool – väljund kõrge, madal :
400µA, 8mA
Pinge toiteallikas :
Single Supply
Laos
51,854
Ühiku hind:
Võtke meiega ühendust Pakkumine
SN74LS153N Konkurentsivõimelised hinnad
ChipIcil on ainulaadne tarneallikas. Pakume oma klientidele SN74LS153N konkurentsivõimelise hinnaga. Saate nautida meie parimat teenust, ostes ChipIc SN74LS153N. Parima hinna saamiseks saidil SN74LS153N võtke meiega ühendust.
Hinnapakkumise saamiseks klõpsake
SN74LS153N Iseärasused
SN74LS153N is produced by Texas Instruments, belongs to Loogika – signaali lülitid, multiplekserid, dekoodrid.
SN74LS153N Toote üksikasjad
:
SN74LS153N – Loogika – signaali lülitid, multiplekserid, dekoodrid disainitud puhvervõimendid ja toodetud Texas Instruments.
SN74LS153N, mida pakub Texas Instruments, saab osta CHIPMLCC-st.
Siit leiate erinevaid juhtivate tootjate elektroonilisi osi rahu.
CHIPMLCC SN74LS153N on range kvaliteedikontrolliga ja nõuetele vastav kõike nõuetele.
CHIPMLCC-s näidatud fondi staatus on ainult viitamiseks.
Kui te ei leia otsitavat osa, võtke meiega ühendust lisateavet, näiteks varude arvu andmetabelis SN74LS153N (PDF), hind SN74LS153N, Pinout SN74LS153N, manuaal SN74LS153N Ja SN74LS153N asenduslahendus.
SN74LS153N, mida pakub Texas Instruments, saab osta CHIPMLCC-st.
Siit leiate erinevaid juhtivate tootjate elektroonilisi osi rahu.
CHIPMLCC SN74LS153N on range kvaliteedikontrolliga ja nõuetele vastav kõike nõuetele.
CHIPMLCC-s näidatud fondi staatus on ainult viitamiseks.
Kui te ei leia otsitavat osa, võtke meiega ühendust lisateavet, näiteks varude arvu andmetabelis SN74LS153N (PDF), hind SN74LS153N, Pinout SN74LS153N, manuaal SN74LS153N Ja SN74LS153N asenduslahendus.
SN74LS153N FAQ
:
1. What is the function of the SN74LS153N dual 4-line to 1-line data selector/multiplexer?
The SN74LS153N is designed to select one of four sources of data and route it to a single output, based on the input selection.
2. What are the typical operating voltage and current ratings for the SN74LS153N?
The SN74LS153N typically operates at a voltage range of 4.75V to 5.25V and has a maximum input current of 0.4mA.
3. Can the SN74LS153N handle high-speed data selection and multiplexing?
Yes, the SN74LS153N is capable of handling high-speed data selection and multiplexing due to its low propagation delay and fast switching characteristics.
4. What is the maximum frequency at which the SN74LS153N can operate effectively?
The SN74LS153N can effectively operate at a maximum frequency of 25MHz, making it suitable for various high-speed applications.
5. How does the SN74LS153N handle input signal transitions and noise immunity?
The SN74LS153N incorporates Schmitt-trigger inputs to provide hysteresis and improve noise immunity, ensuring reliable operation in noisy environments.
6. What are the typical power dissipation characteristics of the SN74LS153N?
The SN74LS153N has a typical power dissipation of 22mW, making it an energy-efficient choice for electronic systems.
7. Can the SN74LS153N be cascaded to expand the number of input lines?
Yes, multiple SN74LS153N devices can be cascaded to expand the number of input lines and create larger multiplexing configurations.
8. What are the temperature range and storage conditions for the SN74LS153N?
The SN74LS153N is designed to operate within a temperature range of -40°C to 85°C and should be stored in a dry, non-corrosive environment.
9. Does the SN74LS153N incorporate built-in protection features against overvoltage or ESD events?
The SN74LS153N includes internal diode clamps to protect against overvoltage and ESD events, enhancing its robustness in real-world applications.
10. Are there any specific layout or decoupling recommendations for optimal performance of the SN74LS153N?
To ensure optimal performance, it is recommended to place decoupling capacitors near the power supply pins and minimize trace lengths to reduce noise coupling.
The SN74LS153N is designed to select one of four sources of data and route it to a single output, based on the input selection.
2. What are the typical operating voltage and current ratings for the SN74LS153N?
The SN74LS153N typically operates at a voltage range of 4.75V to 5.25V and has a maximum input current of 0.4mA.
3. Can the SN74LS153N handle high-speed data selection and multiplexing?
Yes, the SN74LS153N is capable of handling high-speed data selection and multiplexing due to its low propagation delay and fast switching characteristics.
4. What is the maximum frequency at which the SN74LS153N can operate effectively?
The SN74LS153N can effectively operate at a maximum frequency of 25MHz, making it suitable for various high-speed applications.
5. How does the SN74LS153N handle input signal transitions and noise immunity?
The SN74LS153N incorporates Schmitt-trigger inputs to provide hysteresis and improve noise immunity, ensuring reliable operation in noisy environments.
6. What are the typical power dissipation characteristics of the SN74LS153N?
The SN74LS153N has a typical power dissipation of 22mW, making it an energy-efficient choice for electronic systems.
7. Can the SN74LS153N be cascaded to expand the number of input lines?
Yes, multiple SN74LS153N devices can be cascaded to expand the number of input lines and create larger multiplexing configurations.
8. What are the temperature range and storage conditions for the SN74LS153N?
The SN74LS153N is designed to operate within a temperature range of -40°C to 85°C and should be stored in a dry, non-corrosive environment.
9. Does the SN74LS153N incorporate built-in protection features against overvoltage or ESD events?
The SN74LS153N includes internal diode clamps to protect against overvoltage and ESD events, enhancing its robustness in real-world applications.
10. Are there any specific layout or decoupling recommendations for optimal performance of the SN74LS153N?
To ensure optimal performance, it is recommended to place decoupling capacitors near the power supply pins and minimize trace lengths to reduce noise coupling.
SN74LS153N Seotud märksõnad
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