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Product Details:
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| High Light: | Tx RF Daughter Card,RF Daughter Card WBX Tx,WBX Tx RF Daughter Card |
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LUOWAVE RF Rx/Tx Daughterboards WBX-LW(40MHZ,120MHZ)
Main Features:
1. Frequency coverage: 50 MHz - 2.2 GHz
2. Maximum bandwidth includes: 40 MHz , 120 MHz
3. The WBX RF daughter board contains a full-duplex wideband transceiver that supports up to 120 MHz of instantaneous bandwidth
4. Serving a wide range of applications: public safety, communications, amateur radio and ISM
5. The local oscillator's receive and transmit chains operate independently, allowing for frequency duplex operation
6. The reference for the local oscillator is the master clock from the USRP, allowing multiple coherent operations
7. Suitable for USRP-LW X300 / x310 devices
Functional description:
The WBX-LW-40 provides a high-bandwidth transceiver that delivers up to 100mW of power output with a noise figure of 5 dB. The local oscillator's receive and transmit chains operate independently and can be synchronized for MIMO. It is an ideal SDR device for applications that want to access frequencies in the 50MHz-2200 MHz range. Applications include WiFi, WiMAX, S-band transceivers and 2.4 GHz ISM band transceivers. Applications include land mobile communications, marine and aerospace radios; mobile base stations, PCs and GSM multi-band radios; coherent multi-base radars; wireless sensor networks; broadcast television; and public safety management. Applicable to USRP-LW N200, USRP-LW N210, USRP-X310, USRP-X300.
Compatible product:
Test of WBX-LW 40M
Test environment description: R&S company equipment is used for testing, the model is ZVL. The test equipments are USRP-LW X310 and WBX-LW 40M. The two devices are connected by radio frequency cable directly. Test environment diagram:
Open-loop transmitter test connection diagram:
Closed-loop Spontaneous Receiving Test Connection Diagram:
Open-loop and closed-loop test data based on GNU RADIO COMPANION: GNU RADIO COMPANION test block diagram:
1. Carrier suppression and Image Reject Test: Central frequency 70MHz, baseband signal frequency 10kHz, GAIN 9dB
Central frequency 70MHz, Maximum gain output graphics:
Central frequency 70MHz, closed-loop transceiver test spectrum and time-domain graphics
2. Open-loop and closed-loop test data based on GNU RADIO COMPANION: Carrier suppression and Image Reject Test: Central frequency 100MHz, baseband signal frequency 10kHz, GAIN 9dB
Central frequency 100MHz, Graphics output at maximum gain:
Central Frequency 100MHz, Closed Loop Transceiver Test Spectrum and Time Domain Graphics
3. Open-loop and closed-loop test data based on GNU RADIO COMPANION: Carrier suppression and Image Reject Test: Central frequency 400 MHz, baseband signal frequency 10 kHz, GAIN 9dB
Central frequency 400 MHz, Graphics output at maximum gain:
Central frequency 400 MHz, closed-loop transceiver test spectrum and time-domain graphics
4. Open-loop and closed-loop test data based on GNU RADIO COMPANION: Carrier suppression and Image Reject Test: Central frequency 800MHz, baseband signal frequency 10kHz, GAIN 9dB
Central frequency 800MHz, Output Graphics at Maximum Gain:
Central Frequency 800MHz, Closed-Loop Transceiver Test Spectrum and Time-Domain Graphics
5. Open-loop and closed-loop test data based on GNU RADIO COMPANION: Carrier suppression and Image Reject Test: Central frequency 1 GHz, baseband signal frequency 10 kHz, GAIN 9dB
Central frequency 1 GHz, Output Graphics at Maximum Gain:
Central Frequency 1GHz, Closed-loop Transceiver-Receiver Test Spectrum and Time-Domain Graphics
6. Phase noise measurement: central frequency 1 GHz:
Please do not hesitate to contact me if you need any further information.
Whatsapp/skype: +8618062514745 Web:https://www.luowave.com/en/
Contact Person: Mr. Chen
Tel: 18062514745
