PMBus
PMBus, short for Power Management Bus, is a standardized communication protocol developed through the collaborative efforts of Artesyn Technology and major power supply and semiconductor manufacturers. This initiative aimed to establish an open standard for power management communication protocols. The culmination of these efforts resulted in the release of the PMBus specification in March 2005.
Designed to provide an open standard for data transmission, command execution, and data formatting, PMBus facilitates the emulation of smart battery standards. The protocol has found widespread application in diverse power management scenarios, spanning industrial control systems, servers, communication equipment, and more. By leveraging PMBus, real-time monitoring, adjustment, and optimization of power sources become achievable, leading to enhanced system performance and energy efficiency.
PMBus utilizes two primary signal lines: SCK (Clock) and SDA (Data). SCK is responsible for synchronizing data transmission, while SDA handles the actual data transfer. Voltage requirements within the PMBus framework mandate compliance with the specifications of the corresponding integrated circuits (ICs). Consequently, the specific voltage needs and characteristics are contingent upon the ICs utilized and the associated application scenarios. PMBus stands as a critical enabler for efficient and intelligent power management in a variety of technological domains.
Logic Analyzer / MSO
| TB3016E | MSO2116B (w/ analog channels) | MSO3124B (w/ electrical validation) |
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| TB3000 series Specifications PDF | MSO2000 series Specifications PDF | MSO3000 series Specifications PDF |
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| Model | TB3016E | MSO2116B | MSO3124B |
| Decode / Trigger | y | y | y |
| Analog Channels | y | y |
PMBus Decode
Save as TXT/CSV
In Logic Analyzer mode, click the icon above the report area to save the decoded data as a TXT/CSV file. |
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PMBus Decoding Setup Steps1. Click Quick Settings or Add Protocol Decode to select a protocol for logic analyzer capture. 2. Select PMBus for decoding. 3. If you use Quick Settings, the system will recommend configurations for trigger type, sampling rate, voltage threshold, and channel settings. 4. Click the icon to access the Decode Settings screen |
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Decode SettingsChannel SMBCLK: Clock for SMBus data transmission. Startup: Check whether to use PEC analysis. Address: Show 8-bit addressing (include 7-bit addressing and 1-bit R/W). Devices MCTP: Show SMBus analysis in report area. Ignore glitch: Ignore the glitch caused by slow transitions during analysis. |
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YouTube Video
PMBus Decoding Examples
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