| 图片 |
型号 |
厂商 |
标准 |
分类 |
描述 |
|
MAX5939AESA |
Maxim Integrated |
  |
半导体
|
-48v hot-swap controllers with external rsense and high gate pulldown current |
|
MAX5939EESA |
Maxim Integrated |
|
半导体
|
-48v hot-swap controllers with external rsense and high gate pulldown current |
|
SN74CBT16292DGG |
Texas Instruments |
|
半导体
|
12-bit 1-OF-2 fet multiplexer/DEmultiplexer with internal pulldown resistors |
|
|
SN74CBT16292DGV |
Texas Instruments |
|
半导体
|
12-bit 1-OF-2 fet multiplexer/DEmultiplexer with internal pulldown resistors |
|
SN74CBTLV3857DGV |
Texas Instruments |
|
集成电路
|
low-voltage 10-bit fet bus switch with internal pulldown resistors |
|
SN74CBTLV3857PW |
Texas Instruments |
|
半导体
|
low-voltage 10-bit fet bus switch with internal pulldown resistors |
|
MAX5921|MAX5939 |
Maxim Integrated |
|
|
-48v hot-swap controllers with external rsense and high gate pulldown current
|
|
|
GTXO-570 |
Golledge Electronics Ltd |
|
|
5V SM tcxo wide pulling range |
|
|
GTXO-570A |
Golledge Electronics Ltd |
|
|
5V SM tcxo wide pulling range |
|
|
GTXO-576 |
Golledge Electronics Ltd |
|
|
5V SM tcxo wide pulling range |
|
|
GTXO-576A |
Golledge Electronics Ltd |
|
|
5V SM tcxo wide pulling range |
|
|
ICS9S857 |
Integrated Circuit Systems |
|
|
low-voltage 10-bit fet bus switch with internal pulldown resistors |
|
|
FVO12AAH3A |
ETC |
|
|
high pulling vcxo |
|
|
387000919 |
Laird Technologies |
|
热量管理
热电
|
the tunnel series teas are designed with a patented, high-performance cross flow technology that maximizes heat transfer when pulling air through a heat exchanger. |
|
|
387000176 |
Laird Technologies |
|
热量管理
热电
|
the tunnel series teas are designed with a patented, high-performance cross flow technology that maximizes heat transfer when pulling air through a heat exchanger. the number of airflow paths required to operate is reduced when compared to traditional impingement flow teas |
|
|
387000840 |
Laird Technologies |
|
热量管理
热电
|
the tunnel series teas are designed with a patented, high-performance cross flow technology that maximizes heat transfer when pulling air through a heat exchanger. the number of airflow paths required to operate is reduced when compared to traditional impingement flow teas. this product series is offered in two heat transfer mechanism configurations: |
|
|
387000177 |
Laird Technologies |
|
热量管理
热电
|
the tunnel series teas are designed with a patented, high-performance cross flow technology that maximizes heat transfer when pulling air through a heat exchanger. |
|
|
387000872 |
Laird Technologies |
|
热量管理
热电
|
the tunnel series teas are designed with a patented, high-performance cross flow technology that maximizes heat transfer when pulling air through a heat exchanger. the number of airflow paths required to operate is reduced when compared to traditional impingement flow teas. |
|
|
387000873 |
Laird Technologies |
|
热量管理
热电
|
the tunnel series teas are designed with a patented, high-performance cross flow technology that maximizes heat transfer when pulling air through a heat exchanger. the number of airflow paths required to operate is reduced when compared to traditional impingement flow teas |
|
|
387000910 |
Laird Technologies |
|
热量管理
热电
|
the tunnel series teas are designed with a patented, high-performance cross flow technology that maximizes heat transfer when pulling air through a heat exchanger. the number of airflow paths required to operate is reduced when compared to traditional impingement flow teas |
