Laird Technologies IAS EXS148BNX
- EXS148BNX
- Laird Technologies IAS
- ANT TUF DUCK VHF 148-155MHZ BNX
- RF Antennas
- EXS148BNX Лист данных
- -
- -
- Lead free / RoHS Compliant
- 3408
- Запасы спот / разрешенные дилеры / излишки на заводе
- Гарантия качества на 1 год 》
- Нажмите, чтобы узнать цены
Part Number EXS148BNX |
Category RF Antennas |
Manufacturer Laird Technologies IAS |
Description ANT TUF DUCK VHF 148-155MHZ BNX |
Package - |
Series EXS |
Mounting Type Connector Mount |
Frequency Range 148MHz ~ 155MHz |
Frequency Group VHF (f < 300 MHz) |
Frequency (Center/Band) 151MHz |
Antenna Type Whip, Straight |
Number of Bands 1 |
Termination Connector, BNX |
Height (Max) 4.390" (111.51mm) |
Package_case - |
EXS148BNX Гарантии
• Ответьте оперативно
• Гарантированное качество
• Глобальный доступ
• Конкурентоспособная рыночная цена
• Универсальные услуги цепочки поставок
Jinftry, это ваш самый надежный поставщик компонентов, добро пожаловать, чтобы отправить нам запрос, спасибо!
У вас есть вопросы о EXS148BNX ?
Не стесняйтесь связаться с нами:
+86-755-82518276
+8615019224070, annies65, +8615118125813
568248857, 827259012, 316249462
+8615019224070, +8615118118839, +8615118125813
( Электронная почта в первую очередь )
Комментарии
Laird Technologies IAS
EXB118BNX
ANT TUF DUCK VHF 118-127MHZ BNX
EXB000BNX
ANT TUF DUCK VHF 118-127MHZ BNX
DRMX
ANT TUF DUCK VHF 118-127MHZ BNX
DR161MX
ANT TUF DUCK VHF 118-127MHZ BNX
DR161BN
ANT TUF DUCK VHF 118-127MHZ BNX
EXL**HT
ANT TUF DUCK VHF 118-127MHZ BNX
EXD420PL
ANT TUF DUCK VHF 118-127MHZ BNX
EXD300SM
ANT TUF DUCK VHF 118-127MHZ BNX
What is the difference between FPGA and GPU
Difference Between FPGA and GPU
FPGA (field programmable gate array) and GPU (graphics processing unit) are two common hardware accelerators used to increase computing and processing speed. Although they overlap in many ways, there are many differences in architecture, design, and application. In this article, we will explore the differences between FPGAs and GPUs in detail.
Three-Phase SiC Gate Driver Silicon Carbide Applications
Three-Phase SiC Gate Driver Silicon Carbide Applications
The design of the CXT-PLA3SA12450AA three-phase gate driver is derived from the fully tested and verified CMT-TIT8243 [1, 2] and CMT-TIT0697 [3] single-phase gate driver boards, respectively designed for 62mm 1200V/300A and Fast switching XM3 1200V/450A SiC MOSFET power module (see Figure 4). The three-phase gate driver is optimized to be mounted directly on top of the CXTPLA3SA12450 power module, thanks to a more compact transformer de
How a programmable gate array (FPGA) works, its architecture, and how to program it
How a programmable gate array (FPGA) works, its architecture, and how to program it
Programmable Gate Array (FPGA, Field-Programmable Gate Array) is an integrated circuit that designers can program according to their needs after purchase. It includes a series of logic blocks and reconfigurable interconnections that allow designers to customize specific logic functions, data paths, or other specific circuit functions at the hardware level.
lm358 IC (amplifier circuit) datasheet, characteristics, pins, working principle, application fields and alternative models
lm358 IC (amplifier circuit) datasheet, characteristics, pins, working principle, application fields and alternative models
The LM358 IC is a very popular dual operational amplifier (Op-Amp). This model usually has different abbreviations such as lm386 ic, lm386 circuit, lm386 amplifier, lm386 amplifier circuit, etc.
The following is some basic information about it:
Manufacturer: Several companies make the LM358 op amp. It was originally designed by National Semiconductor, which was later