RF Power Attenuator Low PIM MDIN Male to MDIN Female
AED225.00
In stock
Product Model
LPAT-XX-100-0738-XMFi
Power Attenuator is used to attenuate the RF signal. After RF Signal amplification the signal may be too high and may cause saturation in the receiver side. For optimum performance of the receiver, the RF input signal must be in the input range as specificed in the receiver specifications. Thus attenurator is used to reduce the RF Power Signal. The characteristic impedance is 50 Ohms. Main advantages of Astel Attenuator are frequency range 698 -6000 MHz, Low PIM, and low VSWR. Astel Low PIM attenuator offers great vibration performance, excellent mechanical and electrical performance etc. This type is most widely used in Radio communication equipment, microwave test and ground launch systems, and electronic instruments.
Power Attenuator is used to attenuate the RF signal. After RF Signal amplification the signal may be too high and may cause saturation in the receiver side. For optimum performance of the receiver, the RF input signal must be in the input range as specificed in the receiver specifications. Thus attenurator is used to reduce the RF Power Signal. The characteristic impedance is 50 Ohms. Main advantages of Astel Attenuator are frequency range 0.6-6GHz, Low PIM, and low VSWR. Astel Low PIM attenuator offers great vibration performance, excellent mechanical and electrical performance etc. This type is most widely used in Radio communication equipment, microwave test and ground launch systems, and electronic instruments.
Technical specification |
1. Astel Digicom Electronics reserves the right to change, modify specifications without prior notice. 2. All pictures are for illustrative purposes only. Actual product may be different in color and size that may appear in product specifica- 4. E&OE (Errors and Omissions are excepted). 3. Every effort is made to provide accurate information at the time of publishing, however Astel Digicom Electronics LLC is not responsible for any loss, directly or indirectly caused by any error in publishing. |
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