E-Band Radio Solutions
Our mmW E-band radio backhaul chipset solutions expand 5G networks across a variety of environments, from dense urban centers to remote rural areas. E-band is an ideal solution for buildings where connectivity is needed but fiber optics are not available or need additional support.
When it comes to moving lots of data quickly, E-band radio offers a high-capacity, high-speed, and highly scalable alternative or complement to fiber optic cables and microwave backhaul networks. E-band drastically reduces the hurdles of site acquisition and installation, so it can be deployed quickly in environments where fiber optic cable does not yet exist or may not be feasible to install.
Value and Benefits
Analog Devices’ complete E-band surface-mount packaged solution targets performance and integration challenges. It incorporates a highly integrated mixed-signal analog front end, integrated RFICs to enable gain control and programmable filtering, and a highly integrated E-band up/downconverter solution featuring PA, VGA, and LNA to meet market cost and output power demands.
The LGA surface-mount packages are designed to deliver the highest power, while our integrated chipsets are ideal for cost-optimized, high-volume production. Further, multifunction integration, including waveguide, reduces system chip count and engineering design effort. We offer full signal chain solutions to include digital to analog baseband and power attach. Bare die is also available for module-based solutions.
Enables full signal chain solution
Delivers highest power 71 - 76 GHz and 81 - 86 GHz with LGA surface-mount
Offers highly integrated chipset that is cost-optimized for production
Interactive Signal Chains
Key Resources
Developer Tools and Resources
Design Tools
.svg?la=en&h=24&w=24&hash=A2C13F76BE5186399691705ECA59951D){kind=icon}
Simulation Models
Files and Downloads
UG1541: ADuCM410 Development System Getting Started Tutorial User Guide
1.11 M
UG1848: Evaluating the ADL5206 1 GHz DGA with 30 dB Range and 1 dB Step Size
615.19 K
ADF5709: 9.85 GHz to 20.5 GHz, Wideband, MMIC VCO Data Sheet
257.76 K
Understanding Silent Switcher Technology: High Efficiency, Low EMI eBook
7.75 M
ADRF5022: Silicon SPDT Switch, Nonreflective, 100 MHz to 45 GHz Data Sheet
706.51 K
ADL6331: 0.38 GHz to 15 GHz TxVGA Data Sheet
2.68 M
Precision Products and Signal Chain Solutions: Selection Guide 2019
13.38 M
MT-230: Noise Considerations in High Speed Converter Signal Chains
255 kB
Switches and Multiplexers Product Selection Guide
614.79 K
High Speed Converters Lead Industry with 28 nm CMOS Technology
483.39 K
ADPA7008: 20 GHz to 54 GHz, GaAs, pHEMT, MMIC, 31 dBm (1 W) Power Amplifier Data Sheet
2.47 M
ADPA7004: 40 GHz to 80 GHz, GaAs, pHEMT, MMIC, Wideband Power Amplifier Data Sheet
1.11 M
ADMV8052: 30 MHz to 520 MHz Digitally Tunable Band-Pass Filter Preliminary Data Sheet
3.07 M
AN-756: Sampled Systems and the Effects of Clock Phase Noise and Jitter
291.7 K
AN-0974: Multicarrier TD-SCMA Feasibility
634 kB
ADMV4828: 24.0 GHz to 29.5 GHz Transmit/Receive Dual Polarization Beamformer Data Sheet
147.13 K
ADRF5519: Dual-Channel, 2.3 GHz to 2.8 GHz, 20 W Receiver Front End Data Sheet
1.12 M
Silent Switcher Technology
1.74 M
Enabling 5G Networks Through High Capacity mmW Wireless Backhaul
1.73 M
ADuCM3027/ADuCM3029 Ultra Low Power Microcontrollers
426.43 K
AN-1420: Phase Buildout and Hitless Switchover with Digital Phase-Locked Loops (DPLLs)
149.75 K
Connectivity Solutions for the Internet of Things
1 M
AN-851: A WiMax Double Downconversion IF Sampling Receiver Design
262 kB
AN-1461: Options and Solutions for a High Speed or Low Power Signal and Power Isolated RS-485 Fieldbus
124.36 K
{{modalTitle}}
{{modalDescription}}
{{dropdownTitle}}
- {{defaultSelectedText}} {{#each projectNames}}
- {{name}} {{/each}} {{#if newProjectText}}
-
{{newProjectText}}
{{/if}}
{{newProjectTitle}}
{{projectNameErrorText}}