Matched Input Frequency:
30 MHz to 7 GHz
Matched LO Frequency:
LF to 9 GHz
Differential IF Frequency:
DC to 7 GHz
Up- or Downconversion
High Output IP3:
20 dBm at 3.6 GHz 17dBm at 5.8 GHz
Low LO Drive Level: -1 dBm
Low LO-RF Leakage: -30 dBm at 5.8 GHz
Conversion Gain: 2 dB at 5.8 GHz
Package: 10-Lead, 2mm x 2mm Plastic QFN
Price Each Per 1,000: Starts at $4.75
January 17, 2018 (Norwood, Mass.) -
Analog Devices announces the
LTC5562, a low power,
high performance active double-balanced mixer, capable of 50 Ω matching over a very
wide frequency range of 30 MHz to 7 GHz. This versatile mixer can be used in
either frequency upconversion or downconversion applications, with outstanding conversion
gain of 2 dB. The device runs on a single 3.3 V supply rail, drawing 40mA nominal
operating current. If lower power consumption is needed, the mixer can be configured
to operate as low as 15 mA, supporting a wide range of portable and transportable
RF applications. Moreover, the mixer offers exceptional dynamic range performance: +20 dBm
OIP3 at 3.6 GHz frequency.
View the LTC5562 product page, download data sheet, order samples and evaluation boards:
www.linear.com/product/LTC5562
The LTC5562's combination of low power, broadband operation and robust dynamic range
is ideal for a wide range of mobile applications such as portable test instruments, battery-powered
public safety and emergency radios, military manpack radios, portable modems, broadband
access points and small cells, license-free band radios, remote controls, broadcast radios
and UAV/drone radios.
The LTC5562 is offered in a tiny 10-lead, 2 mm x 2 mm plastic QFN package.
The device is rated for operation from –40 °C to 105 °C case temperature. An
enable pin allows an external controller to shut down the mixer for extra power savings.
When disabled, the device typically draws only 10μA supply current. Samples and production
quantities are available immediately.
Contact Info
Analog Devices 720 Sycamore Dr. Milpitas, CA 95035-7417 Phone: 408-432-1900
Web: www.linear.com
Posted January 18, 2018
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