To complete the following tutorials, refer to system requirements for a list of recommended and/or required equipment.
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gives an example of creating 3 carriers for WiBro using the basic carrier mode. You might use this in the design and manufacturing of power amplifiers and repeaters. |
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gives an example of configuring an waveform with 2x1 STC Matrix A for DL-PUSC. |
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gives an example of configuring an waveform with 2x2 MIMO Matrix B for DL-PUSC. |
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gives an example of creating uplink collaborative SM waveforms. |
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describes how to create and export waveform files for use with most instruments, such as the M9381A PXIe Vector Signal Generator. |
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gives an example of the flexibility of the N7615A/B software with MAC Messaging so you can customize the MAC Messaging information to meet your needs. |
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provides information on how to set up the downlink ratio and other system parameters to get the correct values for TTG and RTG as described in the WiMAX Forum system profiles and the 802.16 standards. |
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gives a basic example of creating a downlink TDD waveform with one DL PUSC zone and two bursts using manual allocation. You might use this type of setup for component test, such as testing amplifiers. |
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provides information about synchronizing the waveform playback when using waveforms stored in the instrument memory. |
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provides information on MIMO characteristic performance, analysis and conclusion. |
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shows you the parameter settings for Mobile WiMAX STC/MIMO (Matrix A/B). |
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Multiple Antennae Solution without Baseband Timing Alignment and RF Phase Coherency |
shows you how to set up the signal generators (ESG or PSG) for the Multiple Antennae WiMAX Solution without Baseband Timing Alignment and RF Phase Coherence. |
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Multiple Antennae WiMAX Solution with Baseband Timing Alignment, but without RF Phase Coherency |
shows you how to set up two MXG signal generators (N5182A, N5172B, or N5182B) for the Multiple Antennae WiMAX Solution with Baseband Timing Alignment, but without RF Phase Coherence. |
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Multiple Antennae WiMAX Solution with Baseband Timing Alignment and RF Phase Coherency |
shows you how to set up the signal generators (ESG or PSG) for the Multiple Antennae WiMAX Solution with Baseband Timing Alignment and RF Phase Coherence. |
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gives an explanation of how windowing is calculated and applied to the signal. |
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provides information on setting the power control. |
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shows you the power settings of this software. |
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gives an example of setting up an uplink signal with ranging bursts and making measurements on that uplink signal with the 89601A VSA. |
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gives a basic example of setting up the new zone types and using the 89601A VSA software to demodulate these zones. |
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gives a basic example of creating an uplink TDD waveform with one UL PUSC zone and three bursts using auto allocation. You might use this configuration for some receiver test situations. |
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gives an example of setting up a fast feedback (FFB) region in an UL-PUSC zone. This exercise uses information collected in the Uplink Ranging exercise. |