HMC-APH462-SX
Analog Devices Inc.

Analog Devices Inc.
IC AMP VSAT DBS 15GHZ-27GHZ DIE
$292.83
Available to order
Reference Price (USD)
2+
$246.47000
10+
$231.06800
Exquisite packaging
Discount
TT / Paypal / Credit Card / Western Union / Money Gram
DHL / Fedex / UPS | 2-5 days |
TNT | 2-6 days |
EMS | 3-7 days |
Analog Devices Inc. HMC-APH462-SX is available at inksontech.com. We only sale New&Original Part and offer 1 year warranty time. If you would like to know more about the products or apply more better price, please send a quote to us or contact us by email.
Experience hassle-free transactions with our flexible payment options and credit facilities. Learn more about the various payment methods accepted, installment plans, and any exclusive credit offers available to make your shopping experience seamless.
Product details
Upgrade your RF systems with the HMC-APH462-SX from Analog Devices Inc., a high-gain RF amplifier designed for precision and reliability. This amplifier is ideal for applications requiring strong signal amplification with minimal interference. Its advanced design caters to industries like aerospace, medical imaging, and wireless networking. The HMC-APH462-SX delivers outstanding performance with features such as low phase noise, high linearity, and excellent thermal stability. These attributes make it suitable for use in GPS systems, cellular base stations, and industrial sensors. The amplifier's compact form factor allows for easy integration into space-constrained setups. Professionals seeking a dependable RF amplifier will find the HMC-APH462-SX to be an excellent investment. To explore pricing options and availability, submit an inquiry today and let our experts guide you through the selection process.
General specs
- Product Status: Active
- Frequency: 15GHz ~ 27GHz
- P1dB: 26dBm
- Gain: 16dB
- Noise Figure: -
- RF Type: VSAT, DBS
- Voltage - Supply: 5V
- Current - Supply: 1.44A
- Test Frequency: 15GHz ~ 17GHz
- Mounting Type: Surface Mount
- Package / Case: Die
- Supplier Device Package: Die