Configuring the Internal Baseband Source
R&S
®
SMW200A
226User Manual 1175.6632.02 ─ 16
For details, see the R&S SMW IEEE 802.11a/b/g/n/ac/ax user manual.
IEEE 802.11 ad
This digital standard requires an instrument equipped with a wideband baseband gen-
erator R&S SMW-B9 and the IEEE 802.11ad option R&S SMW-K141.
The option provide functionality to generate signals in accordance with the Wireless
LAN standards IEEE 802.11ad.
For details, see the R&S SMW IEEE 802.11ad user manual.
IEEE 802.16 WiMAX
TM
This digital standard requires an instrument equipped with the IEEE 802.16 WiMAX
option R&S SMW-K49.
The IEEE 802.16 WiMAX option provides functionality to generate signals in accord-
ance with the IEEE 802.16 standard WiMAX.
For details, see the R&S SMW WiMAX user manual.
EUTRA/LTE Rel. 8, Rel. 9, Rel. 10, Rel. 11, Rel. 12, Rel. 13/14, Cellular IoT
This digital standard requires an instrument equipped with the EUTRA/LTE options
R&S SMW-K55/-K69/-K81/-K84/-K85/-K112/-K113/-K115/-K119.
These options provide functionality to generate signals in accordance with the 3GPP
standard EUTRA/LTE Rel. 8, Rel. 9, Rel. 10, Rel. 11, Rel. 12 and Rel. 13/14.
For details, see the R&S SMW EUTRA/LTE user manual.
5G Air Interface Candidates
This digital standard requires an instrument equipped with the 5G Air Interface Candi-
dates option R&S SMW-K114.
This option provides functionality to generate saccording to the proposed modulation
schemes.
For details, see the R&S SMW 5G Air Interface Candidates user manual.
Verizon 5GTF
This digital standard requires an instrument equipped with the Verizon 5GTF option
R&S SMW-K118.
This option provides functionality to generate signals based on the Verizon 5G open
trial specifications http://5gtf.org/.
For details, see the R&S SMW Verizon 5GTF user manual.
NFC/EMV
This digital standard requires an instrument equipped with the NFC/EMV option
R&S SMW-K89.
Generating Signals According to Digital Standards
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