madura: introduction of adi’s new rf transceiver product · 2020. 9. 29. · ,and 450 mhz...
TRANSCRIPT
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Leo Chen ([email protected])
ADRV902x -
Introduction of ADI’s new RF
transceiver product
©2020 Analog Devices, Inc. All rights reserved.122 September
2020
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RadioVerse™
©2020 Analog Devices, Inc. All rights reserved.222 September
2020
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Integrated Wideband RF Transceiver Roadmap
©2020 Analog Devices, Inc. All rights reserved.322 September
2020
AD9375
(DPD)
65 nm
2T2R1OR 3G/4G
300MHz – 6GHz
Low power DPD for up
to 40 MHz BW
Small cell and
massive MIMO only
6GHz JESD
ADRV9026
28nm 4T4R2OR
3G/4G/5G
650MHz – 6GHz
450MHz Tx/Orx
200MHz Rx
TDD & FDD
12GHz JESD204B/C
½ power of 65nm
Macro, small cell, and
massive MIMO markets
Available
In Development
2014 2016
AD9361
65 nm
2T2R
70 MHz – 6 GHz
56 MHz Tx
56 MHz Rx
CMOS/LVDS
Low Power
AD9371
65 nm
2T2R1OR 3G/4G
300 MHz – 6 GHz
250 MHz Tx/Orx
100 MHz Rx
6GHz JESD
ADRV9008-1/-2
(FDD)
65 nm
2-chip FDD
2G/3G/4G
MC-GSM
75MHz – 6GHz
200MHz Rx
450 MHz Tx/Orx
12GHz JESD
LO multichip sync
Frequency agility
2017
ADRV9009
(TDD)
65 nm 2T2R1OR
TDD 3G/4G/5G
75MHz – 6GHz
450 MHz Tx/Orx
200 MHz Rx
12GHz JESD
LO multichip sync
Frequency agility
2018
AD9364
65 nm
1T1R
70 MHz – 6 GHz
56 MHz Tx
56 MHz Rx
CMOS/LVDS
Low power
AD9363
65 nm
2T2R
325 MHz - 3.8 GHz
20 MHz Tx
20 MHz Rx
Low power
20202019
ADRV9029
(DPD/DFE)
28nm 4T4R2OR
3G/4G/5G
75MHz – 6GHz
450MHz Tx/Orx
200MHz Rx
TDD & FDD
25GHz JESD204B/C
Enhanced DPD/DFE
Macro, small cell, and
massive MIMO markets
ADRV9002
28nm 2T2R/1T1R
30MHz – 6GHz
12kHz – 40MHz BW
CMOS/LVDS
Sleep mode
Fast freq hopping
Integrated DPD
LMR and ADEF
markets
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©2020 Analog Devices, Inc. All rights reserved.422 September
2020
ADRV902x Family Portfolio
Target Market H/W Release
Schedule
RF Freq Range Integrated
DPD/CFR/CLGC
ADRV9026 Broad Market Nov 2019 650MHz – 6GHz N/A
ADRV9029 Broad Market Coming soon 650MHz – 6GHz Y
► All ADRV902x parts are pin-compatible, 4T4R2OR, single-chip TDD/FDD
► Share the same evaluation platform and software (GUI & API)
► Featured differences are outlined below
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ADRV902x:
Quad-Chanel Wideband RF Transceiver Platform
► Highly integrated, high performance software defined radio▪ Enhanced integrated DEF features (DPD + CFR + CLGC)
▪ Best in class EVM and ACLR performance up to 200MHz
▪ Patented stability, robustness and dynamic IP incorporated.
▪ Internal LDOs buffer sensitive inputs and relax system requirements
► Common platform design for 3G/4G/5G reduces complexity, development costs and time to market▪ Single chip supports multi modes
▪ 4T4R single band TDD & FDD
▪ 2T2R dual band TDD
▪ LO distribution system routes LO1, LO2 to any Rx, ORx, and Tx channel
► Smallest size, lowest power transceiver solution for basestation(BTS) applications▪ Power consumption reduced to half of 65nm per channel
©2020 Analog Devices, Inc. All rights reserved.522 September
2020
Applications:
➢ Macrocell
➢ Massive MIMO
➢ Small Cell
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ADRV902x Functionality and Block Diagram
©2020 Analog Devices, Inc. All rights reserved.622 September
2020
►Single-chip TDD/FDD operation
►Functionality: quad transmitters, quad receivers,
and dual observation receivers with 2 inputs each
►Bandwidth: 200 MHz receiver,
200 MHz large signal/ 450 MHz synthesis transmitter
,and 450 MHz observation receiver
►Tuning range: 650 MHz to 6 GHz
► Interface: 12 Gbps JESD204B/C 1
►Power consumption: 5 W 2
►Multichip LO phase synchronization
►DFE features: Enhanced DPD / CLGC / CFR 3
►Package: 14 ×14 BGA
1. Will update to 24.33Gbps in future release
2. For 25% Rx 75% Tx, 1x Orx on, 200 MHz/450 MHz/450MHz BW, 0 dB attenuation
3. Supported on ADRV9029 which is coming soon
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ADRV9009 vs ADRV9026 – Features & Specification
©2020 Analog Devices, Inc. All rights reserved.722 September
2020
Spec/Feature ADRV9008/9 ADRV9026
No. Tx/Rx/Orx 2T2R1OR 4T4R2OR
TDD/FDD Support Single-chip TDD
Two-chip FDD
Single Chip TDD & FDD
Frequency Range 75MHz – 6GHz 650MHz – 6GHz1
Rx/Tx/Orx Channel BW 200MHz/450MHz/450MHz 200MHz/450MHz/450MHz
Power Consumption 1x 0.5x
ADC/DAC Max Sampling Rate 2Gbps/1Gbps 5Gbps/2.5Gbps
Interface 12Gbps JESD204B 16Gbps JESD204B & JESD204C
SERDES Lane Count 4 lanes each direction 4 lanes each direction
Supply Rails 1.3V/1.8V/3.3V 1.0V/1.3V/1.8V
Package 12x12 FC-BGA 14x14 FC-BGA
DFE Features N/A Integrated DPD & CFR (bypassable) for up
to 200MHz BW applications
Similar Tx/Rx/Orx RF performance for ADRV9009 and ADRV9026.1. Will be expanded to 75MHz – 6GHz on future release.
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ADRV902x Design Resources
©2020 Analog Devices, Inc. All rights reserved.822 September
2020
Evaluation Kits► ADRV9026-HB/PCBZ for 2.8GHz to 6GHz
► ADRV9026-MB/PCBZ for 650 MHz to 2.8GHz
Carrier Platforms ► ADS9-V2EBZ / ADS8-V1EBZ
Software ► Windows GUI/API/Firmware
Design File Package
► User Guide
► EVB schematics, layout, BOM, gerber
► BSDL, IBIS, JCOM, s-parameter models
Design Tools► FPGA Interoperability Report
► Filter Wizard
Customer Support
Forum► ADRV9026 EngineerZone® Forum
► Please visit ADRV9026 Landing Page to download Software Package and Design file package.
https://ez.analog.com/wide-band-rf-transceivers/design-support-adrv9026https://www.analog.com/en/landing-pages/001/radioverse-ADRV9026/index.html
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ADRV9029 reference design for small cell
► On board RF reference design▪ Add PA pre-driver stage HMC625B/ADL5611 to enable the
reference platform can connect to PA EVB directly
▪ Add ADI RF Front end products ADRF5545A/ADRF5549 on RX channels, and switch products on ORx channels
▪ Make the board support middle/high RF bands simultaneously
► On board clock solution▪ Use dual clock domains clock device AD9545
▪ Add SyncE capability needed for O-RAN
► On board power supply solution▪ Use ADP5054 as the power supply for ADRV902x and clock
devices
▪ Leave interface for external PoE EVB + ADI power brick supply
► Multiple FPGA platform supported▪ Work with either ADS9 board or Intel Arria 10 board.
▪ Common GUI software and user interface
► DFE verification software supported▪ Integrate the DPD / CFR / CLGC verification interface in GUI
©2020 Analog Devices, Inc. All rights reserved.922 September
2020
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RFPD 5G Smallcell RU Boards
©2020 Analog Devices, Inc. All rights reserved.1022 September
2020
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©2020 Analog Devices, Inc. All rights reserved.1122 September
2020