Pico Macom PSW044-2.0 manual Reference, Peak To Peak The difference between maximum and minimum

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Reference

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Injector Duration: The duration of the fuel injector pulse, as battery current flows through the injector coil.

Low Pulse Width: The amount of time that the signal spends below its mean value.

Maximum: The highest level reached by the signal.

Minimum: The lowest level reached by the signal.

Peak Burn Voltage: For a secondary ignition waveform, the voltage of the initial peak as the spark begins.

Peak To Peak: The difference between maximum and minimum.

Rise Time: The time the signal takes to rise from 20% to 80% of its peak- to-peak value.

Rising Rate: The rate at which the signal rises, in signal units per second. Measured between 20% and 80% of its peak-to-peak value.

Copyright 2006 Pico Technology Limited. All rights reserved.

PSW044-2.0

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Contents PicoScope PC Oscilloscope Software Table of Contents Reference How toIndex Welcome How to use this manual Whats new in this version?Higher performance Version 6.0 updateVersion 6.0 update New featuresIntroduction How to use PicoScopeLegal statement Contact information How to use this manualSystem requirements Using PicoScope for the first time Using PicoScope for the first timeIt didnt do what I expected Oscilloscope basics PicoScope and oscilloscope primerPicoScope basics PCO basicsPicoScope and oscilloscope primer To open a new capture window Capture windowTo arrange the scope views within the capture window Frequency legend Custom probesTo edit a measurement Measurements tableTo change the width of a measurement column How to choose the oversampling factor ProcedureOversampling Ruler legend Post-trigger arrowCursor position tool tip Scope viewRuler tool tip Time rulersTrigger marker Ruler tooltip Signal rulersUpgrading from PicoScope Windows, views and viewportsMenus Menus File menuSave As dialog Settings files *.pssettingsData files *.psdata PNG Image *.png Menus Text Tab delimited *.txtBitmap Image *.bmp GIF Image *.gifEdit menu Help menu Measurements menu Add / Edit Measurement dialog Custom Probes dialog Tools menuAdding a new probe to your library Custom Probe wizardCreate New Custom Probe dialog How to use the dialogEdit Existing Custom Probe dialog Probe Output Units dialog Scaling Method dialog Import/Export Editing the Look-up TableFinishing Range Management dialog What is Auto-ranging?How to use a new custom range Manual Ranges Setup dialogWhat is a scaled range? Automatic modeFixed range mode What is an input range?PicoScope 6 User Guide Range utilisation bar Custom Probe Identification dialog Custom Probe Finished dialog Preferences dialog Where to find itGeneral dialog Performance dialog Toolbar menu How to use itWindow menu Toolbars ToolbarsCustomizing Capture Windows toolbar Buffer Navigation toolbarWaveform buffer Open Device dialog Demo modeProbe Drop-Down menu Channel Setup toolbarCustomization dialog Customization Toolbars Customization Commands Options tab of the Customization dialog Toolbars Customization OptionsAdd Measurement Help toolbarMeasurements toolbar Measurements toolbar controls the measurements tableStandard controls Scope Setup toolbarAdditional controls Signal Generator dialog Signal Generator toolbarLeft Signal generator dialog for the PicoScope 3206 PicoScope 6 User Guide How to use it Start / Stop toolbar Triggering toolbar Trigger ModeTechnical Note Zooming and Scrolling toolbar Demo Signals dialog Demo Signals toolbarHow to How toUsing two rulers for differential measurements How to change to a different scope deviceHow to use rulers to measure a signal Using a single ruler for signal-to-ground measurementsHow to move a view How to measure a time differenceMeasurement types ReferencePeak To Peak The difference between maximum and minimum ReferenceTrigger timing part Tip Keyboard shortcuts Glossary Index Index PicoScope 6 User Guide PSW044-2.0

PSW044-2.0 specifications

The Pico Macom PSW044-2.0 is a versatile and efficient satellite signal splitter designed for seamless distribution of satellite signals in residential and commercial settings. This innovative device stands out for its exceptional performance, solid build quality, and user-friendly features, making it a reliable choice for installers and system integrators.

One of the main features of the PSW044-2.0 is its four-way signal distribution capability, allowing users to connect multiple devices such as satellite receivers, DVRs, or televisions to a single satellite dish. This is particularly beneficial in multi-room setups where each room may require access to satellite signal without the need for multiple dishes. The splitter effectively reduces the clutter of additional cables while maintaining signal integrity.

The PSW044-2.0 is built on advanced technologies that ensure minimal signal loss and high-frequency stability. Featuring a wide frequency range from 5 MHz to 2300 MHz, this splitter is compatible with a broad range of satellite frequencies, including both standard and high-definition signals. This makes it an ideal choice for modern homes equipped with advanced satellite systems.

Another characteristic that sets the Pico Macom PSW044-2.0 apart is its robust construction. The device is engineered with high-quality materials to enhance durability and longevity. Its compact design makes it easy to install in tight spaces, while the LED indicators facilitate monitoring of signal transmission.

For enhanced performance, the PSW044-2.0 incorporates advanced isolation techniques that prevent signal interference between outputs. This ensures that connected devices can operate without cross-talk, which is crucial for clear and uninterrupted viewing experiences. Additionally, the splitter is designed to handle varying line voltages and has built-in surge protection to safeguard connected equipment from electrical surges.

Overall, the Pico Macom PSW044-2.0 is a sophisticated solution for anyone needing to distribute satellite signals efficiently and effectively. With its combination of high performance, durability, and user-friendly features, it significantly enhances the satellite signal distribution experience, making it a valuable component in any satellite communication setup.
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