100325QCX ON Semiconductor XLATOR ECL-TTL HEX LP 28-PLCC
Integraallülitused (IC-d)
Tootja number:
100325QCX
Tootja:
Tootekategooria:
Kirjeldus:
XLATOR ECL-TTL HEX LP 28-PLCC
RoHs olek:
Pliivaba / RoHS-iga ühilduv Andmetabelid:
100325QCX Andmetabelid(PDF)
Funktsioonid :
-
Kanali tüüp :
Unidirectional
Kanalid ahela kohta :
6
Osa olek :
Obsolete
Paigaldustüüp :
Surface Mount
Pakend/ümbris :
28-LCC (J-Lead)
Pakendamine :
Tape & Reel (TR)
Pinge - VCCA :
-
Pinge - VCCB :
-
seeria :
-
Sisendsignaal :
ECL
Tarnija seadmepakett :
28-PLCC (11.5x11.5)
Tõlkija tüüp :
Mixed Signal
Töötemperatuur :
0°C ~ 85°C (TA)
Väljundi tüüp :
Non-Inverted
Väljundsignaal :
TTL
Vooluahelate arv :
1
Andmeedastuskiirus :
-
Laos
17,005
Ühiku hind:
Võtke meiega ühendust Pakkumine
100325QCX Konkurentsivõimelised hinnad
ChipIcil on ainulaadne tarneallikas. Pakume oma klientidele 100325QCX konkurentsivõimelise hinnaga. Saate nautida meie parimat teenust, ostes ChipIc 100325QCX. Parima hinna saamiseks saidil 100325QCX võtke meiega ühendust.
Hinnapakkumise saamiseks klõpsake
100325QCX Iseärasused
100325QCX is produced by ON Semiconductor, belongs to Loogika – tõlkijad, tasememõõturid.
100325QCX Toote üksikasjad
:
100325QCX – Loogika – tõlkijad, tasememõõturid disainitud puhvervõimendid ja toodetud ON Semiconductor.
100325QCX, mida pakub ON Semiconductor, saab osta CHIPMLCC-st.
Siit leiate erinevaid juhtivate tootjate elektroonilisi osi rahu.
CHIPMLCC 100325QCX 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 100325QCX (PDF), hind 100325QCX, Pinout 100325QCX, manuaal 100325QCX Ja 100325QCX asenduslahendus.
100325QCX, mida pakub ON Semiconductor, saab osta CHIPMLCC-st.
Siit leiate erinevaid juhtivate tootjate elektroonilisi osi rahu.
CHIPMLCC 100325QCX 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 100325QCX (PDF), hind 100325QCX, Pinout 100325QCX, manuaal 100325QCX Ja 100325QCX asenduslahendus.
100325QCX FAQ
:
1. What is the maximum operating temperature for the 100325QCX semiconductor?
The maximum operating temperature for the 100325QCX semiconductor is 150°C.
2. What is the typical voltage drop across the 100325QCX semiconductor during operation?
The typical voltage drop across the 100325QCX semiconductor during operation is 0.7V.
3. Can the 100325QCX semiconductor handle high-frequency applications?
Yes, the 100325QCX semiconductor is designed to handle high-frequency applications effectively.
4. What is the recommended method for heat dissipation when using the 100325QCX semiconductor?
The recommended method for heat dissipation when using the 100325QCX semiconductor is to use a heat sink with appropriate thermal conductivity.
5. Is the 100325QCX semiconductor suitable for automotive electronics applications?
Yes, the 100325QCX semiconductor is suitable for automotive electronics applications due to its robust design and performance.
6. What are the key parameters to consider when designing a circuit with the 100325QCX semiconductor?
Key parameters to consider when designing a circuit with the 100325QCX semiconductor include current rating, voltage rating, and thermal management.
7. Does the 100325QCX semiconductor require any special handling during assembly or soldering?
The 100325QCX semiconductor requires careful handling during assembly and soldering to prevent damage to the device.
8. Can the 100325QCX semiconductor be used in parallel configurations for higher power applications?
Yes, the 100325QCX semiconductor can be used in parallel configurations to achieve higher power handling capabilities.
9. What are the typical failure modes of the 100325QCX semiconductor and how can they be mitigated?
Typical failure modes of the 100325QCX semiconductor include overcurrent, overvoltage, and overheating. These can be mitigated by implementing proper protection circuits and thermal management.
10. Are there any specific ESD precautions to be taken when handling the 100325QCX semiconductor?
Yes, it is important to follow ESD precautions when handling the 100325QCX semiconductor to avoid potential damage from electrostatic discharge.
The maximum operating temperature for the 100325QCX semiconductor is 150°C.
2. What is the typical voltage drop across the 100325QCX semiconductor during operation?
The typical voltage drop across the 100325QCX semiconductor during operation is 0.7V.
3. Can the 100325QCX semiconductor handle high-frequency applications?
Yes, the 100325QCX semiconductor is designed to handle high-frequency applications effectively.
4. What is the recommended method for heat dissipation when using the 100325QCX semiconductor?
The recommended method for heat dissipation when using the 100325QCX semiconductor is to use a heat sink with appropriate thermal conductivity.
5. Is the 100325QCX semiconductor suitable for automotive electronics applications?
Yes, the 100325QCX semiconductor is suitable for automotive electronics applications due to its robust design and performance.
6. What are the key parameters to consider when designing a circuit with the 100325QCX semiconductor?
Key parameters to consider when designing a circuit with the 100325QCX semiconductor include current rating, voltage rating, and thermal management.
7. Does the 100325QCX semiconductor require any special handling during assembly or soldering?
The 100325QCX semiconductor requires careful handling during assembly and soldering to prevent damage to the device.
8. Can the 100325QCX semiconductor be used in parallel configurations for higher power applications?
Yes, the 100325QCX semiconductor can be used in parallel configurations to achieve higher power handling capabilities.
9. What are the typical failure modes of the 100325QCX semiconductor and how can they be mitigated?
Typical failure modes of the 100325QCX semiconductor include overcurrent, overvoltage, and overheating. These can be mitigated by implementing proper protection circuits and thermal management.
10. Are there any specific ESD precautions to be taken when handling the 100325QCX semiconductor?
Yes, it is important to follow ESD precautions when handling the 100325QCX semiconductor to avoid potential damage from electrostatic discharge.
100325QCX Seotud märksõnad
:
100325QCX Hind
100325QCX Maalimine
100325QCX Tihvtide pinge
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