1. All options should be ordered using E4438C-xxx, where the xxx represents the option number. For more information, please refer
to the configuration guide publication number 5988-4085EN. 2. Requires either Option 601 or 602 (baseband generator) to function.
3. Requires Option 001, 002, 601, or 602. 4. For the latest information visit find/signalstudio. 5. For details
visit find/basebandstudio and find/PXB.
E4438C Vector Signal Generator Main characteristics and technical indicators signal characteristics 250 kHz to 1, 2, 3, 4 or 6 GHz +17 dBm output power The phase noise at 1 GHz frequency and 20 kHz frequency offset is less than<-134 dBc (typical value) for modulation and scanning AM, FM, Ø M, and pulse ASKFSKMSKPSKQAM Customized I/Q Step by step scanning or list scanning of frequency and power Generation of baseband signals and other signals 80 MHz dual-mode built-in baseband signal generator: arbitrary waveform and real-time I/Q signal 64 MSa playback memory and 1 GSa storage Generate reference signal: LTEHSPA+WiMAX ™ WLAN, DVB-H, GPS/GNSS, MATLAB, etc. - Signal Studio Generate multi-channel baseband signals using N5102A digital I/O, MIMO fading, RF to RF fading, and PXB baseband signal generator and channel simulator Automatic and Communication Interface 10BaseT LAN and GPIB SCPI and IVI-COM drivers Backward compatibility with ESG, PSG, and 8648 signal generators describe RF performance and baseband signal generation function The E4438C ESG vector signal generator combines RF performance with excellent baseband signal generation capabilities, providing calibrated test signals at baseband, intermediate frequency, and up to 6 GHz RF frequencies. Due to the use of a built-in baseband signal generator with arbitrary waveform and real-time I/Q generation capabilities, ample waveform playback memory and storage, and a wide RF modulation bandwidth, the E4438C ESG can test current complex wireless systems and their components. Adopting a modular architecture to meet your testing requirements E4438C ESG is a platform with strong adaptability and multiple optional features, which supports you to customize instruments to meet the needs of various baseband and RF testing applications, from simple distortion testing, general fault diagnosis to baseband coding algorithm development, advanced transceiver design verification, and large-scale manufacturing. With a modular architecture, it can easily configure instruments, provide the performance level and signal generation capability you currently need, and upgrade them in the future through options.
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