News
Latest News and EMITE Releases
EMITE has been selected by Saudi Arabia authorities to install a first-of-its-kind large anechoic chamber for antenna and RCS OTA testing. The outstanding antenna carrousel EMITE technology, which enables full automation throughput a wide spectrum up to 220 GHz, has been a key factor for the selection of EMITE Test Systems. The F-Series large anechoic chamber will include both the Direct Far Field (DFF) and Compact Antenna Test Range (CATR) test methods and will undoubtedly represent the state of the art in the region and a good progress for EMITE expansion into the Middle East.
EMITE and Anritsu Corporation are proud to announce their latest combined solution for testing the compatibility of different connection technologies such as LTE, WLAN and Bluetooth® wireless technology.
The Anritsu Wireless Connectivity Test Set MT8862A, Radio Communication Analyzer MT8821C and Bluetooth Test Set MT8852B have been integrated with the EMITE E600 Reverberation Chamber. The solution allows the testing of OTA TRP/TIS/TPUT performance in a repeatable environment. With integral communications protocols and optimized performance for testing, the EMITE reverberation chamber and Anritsu platforms can reliably characterize the different coexistence scenarios of the latest devices.
EMITE and Anritsu solution ensures compatibility of LTE, WLAN and Bluetooth
EMITE will showcase and participate at the 2022 Vodafone 5G event for new business models in Murcia, Spain, on April 7, 2022, at Víctor Villegas Auditorium. EMITE’s CEO, David A. Sánchez-Hernández, will interact in a life show with Vodafone’s Head of Data Core Engineering Delivery Units - Group Network Engineering & Delivery, Fini Irles. EMITE will also showcase the latest 5G OTA testing advances with I60.
Invitation and Registration Link
EMITE and Anritsu Corporation have added the 6 GHz band to their newly integrated testing system, allowing testing to the new IEEE 802.11ax WLAN standard. The new band adds to the already available 2.4 GHz and 5 GHz bands.
Anritsu’s Wireless Connectivity Test Set MT8862A has been integrated with the EMITE E600 Reverberation Chamber, allowing developers to test the OTA TRP/TIS performance of IEEE 802.11ax devices in a repeatable environment.
EMITE and Anritsu Corporation have added the 6 GHz band to their newly integrated testing system, allowing testing to the new IEEE 802.11ax WLAN standard. The new band adds to the already available 2.4 GHz and 5 GHz bands
For immediate release – EMITE has made another big step forward in 5G OTA testing by releasing a unique fully-automated feed antenna carrousel for standardized 3GPP 38.141 5G gNodeB OTA testing using a 1.8m Compaq Antenna Test Range (CATR) in the EMITE F100 anechoic chamber. The novel antenna carrousel is capable of providing fully automated measurements for the frequency range from 1 to 220 GHz, and for both vertical and horizontal polarizations. With an embedded mmWave hardware module, several antennas are rotated to the CATR focal point position, and when in combination of automated Vector Signal Analyzer (VSA) and Vector Signal Generator (VSG) test algorithms the user saves several days of manual changes. With full support for chapters 6 and 7 of 3GPP TS 38.141, the novel antenna feed carrousel brings automation to un unheard-of level in gNodeB OTA testing. Several RF paths with different signal levels, in combination to mmWave oscillators, switches, amplifiers, multipliers, mixers and combiners, set the pace for world-wide first OTA tests up to 220 GHz with the push of a button. The system is currently in use at two customer sites, leading manufacturers of gNodeB. The EMITE-unique fully-automated Graphic User Interface (GUI) software suite allows testing of all Key Performance Indicators (KPIs) in chapters 6 and 7 of 3GPP TS. 38.521-1/2/3. The novel antenna carrousel can be combined to a barbeque-type DUT positioner, allowing automated loading-unloading of very heavy gNodeBs at the chamber flushed entrance. The automation is also capable of operating overnight without human supervision.