Agilent Technologies 5988-7401EN manual Power Requirements, Performance Requirements

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Safety Requirements

Power Requirements

Power Requirements

NOTE When the front panel switch is off, the instrument is in “standby” mode. The instrument is disconnected from the AC line power only by disconnecting the power cord.

The instrument can operate from any single-phase AC power source supplying 100 – 240 V in the frequency range from 47 – 63 Hz. The maximum power consumption is 200 VA with all options installed. When the instrument is switched on the power supply adapts automatically to the applied AC power (Auto Selection) and monitors the AC power range during operation.

Performance Requirements

For best performance of data transfer and for EMC compliance use an Agilent 82357-61601 Mini-USB cable only.

Ventilation Requirements

Make sure that there is adequate clearance of 50 mm (2 in) at the top and right side to ensure adequate air flow. If the air flow is restricted, the internal operating temperature will be higher, reducing the instrument's reliability.

NOTE Do not cover the ventilation holes.

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Agilent 81133A/81134A Pulse Generator User’s Guide, January 2005

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Contents Agilent 81133A/81134A Pulse Generator Important Notice RevisionContents Setting Up Generic and Advanced Signals Setting Up the 81134A by Using the Graphical User InterfaceUpdating the Firmware Troubleshooting Index Contents Safety Summary Environmental ConditionsGround the Instrument Before Applying PowerSafety Requirements Do not Operate in an Explosive AtmosphereInitial Inspection Initial InspectionPerformance Requirements Power RequirementsVentilation Requirements Cleaning Recommendation Cleaning RecommendationDeclaration of Conformity Declaration of ConformityIntroduction to the Agilent 81133A/81134A Pulse Generator Benefits and Key Features Introduction to the Agilent 81133A/81134A Pulse GeneratorGraphical User Softkeys Numeric Front Panel OverviewFront Panel Overview Interface Keys Tab Keys to navigateInput and Outputs Global Inputs Outputs Channel InputsDescription Rear Panel Overview Operating the Agilent 81133A/81134A Pulse Generator Main Navigation through the PagesOperating the Agilent 81133A/81134A Pulse Generator ChannelHow to Select a Parameter from a Selection List How to Navigate through the Parameters at onePress the navigation knob to open the selection list How to Change a Number Field How to Change a Number FieldModify Values Fine-Tuning PressChanging Single Digits Operating the Agilent 81133A/81134A Pulse Generator Setting Up Generic and Advanced Signals Setting Up a Clock Signal Setting Up Generic and Advanced SignalsUsing the Graphical User Interface Setting Up a Clock SignalNormal Out Channel Set the Freq. Divider to Frequency Divider Indicator Setting Up Generic and Advanced Signals Using the Remote Programming Interfaces Following code performs the same taskSetting Up a Pulse Signal Setting Up a Pulse Signal Pattern Mode Width LevelsTrigger Mode Generate the Signals //reconnect channels Setting Up a Data Pattern Prbs Polynome Signal Mode Pattern Mode Setting Up a Data PatternECL Levels Pulse Type NRZ Pattern Mode Data ECL Levels Switch to the Numeric Edit ModeData pattern for channel Numeric Edit Mode Trigger Mode Set up the trigger Set trigger mode to data OUTP0SOUR Bits Arming Source Setting Up a Burst SignalDelay = 50 ps Period = 500 ps Width = 100 psInstrument Setting Up a Burst SignalMode Data pattern for channel Graphic Edit Mode Timing ParameterTrigger Output Aux page now looks as follows Following code performs the same tasks Setting Up a Repetitive Burst Signal Burst Length = 4 x Data LengthSetting Up a Repetitive Burst Signal Instrument Burst Repetition Specifies ModeData Settings for the Pattern Signal To set the data pattern Setting Up a Repetitive Burst Signal Setting Up Generic and Advanced Signals Prepare the trigger Set trigger mode to Data OUTP0SOUR Bits Setting Up Signals for a Stressed Eye Diagram Measurement Setting Up Signals for a Stressed Eye Diagram Measurement Connecting the Instruments86100 DCA Setting Up the 81134A by Using Graphical User Interface 50 %Channel page now looks as follows Enable the trigger output Setting Up the 33250A Waveform Generator Viewing the Eye Diagram on the 86100 DCAPlay with the Settings Channel panelUsing the Agilent 81133A/81134A Pulse Generator Pages of the User Interface Using the Agilent 81133A/81134A Pulse GeneratorInstrument Panel Channel Pages of the User Interface Combining Parameters for Signal Generation Instrument ModesCombining Parameters for Signal Generation Pattern Modes Signal Modes NRZVariable Crossover Clock Sources Measure Function Clock SourceUsing the Agilent 81133A/81134A Pulse Generator Start Mode Trigger OutTiming of Generated Signals Duty Cycle = 50 % Output Timing of Generated SignalsClock Trigger OutPulses Channel Freq. Divider =Output Trigger Out Data PatternData Pattern of 32 bits Prbs Started Burst Data Pattern BurstRepetitive Burst Jitter Modulation Saving and Recalling SettingsJitter Modulation Saving and Recalling Settings Updating the Firmware Updating the Firmware Troubleshooting Troubleshooting Instrument does not RespondIndex IndexTrigger output levels Index 5988-7401EN

5988-7401EN specifications

Agilent Technologies, a leader in life sciences, diagnostics, and applied chemical markets, offers an array of sophisticated tools aimed at enhancing analytical and diagnostic capabilities. One such product is the Agilent 5988-7401EN, a high-performance mass spectrometer that exemplifies cutting-edge technology in the field of analytical chemistry.

The Agilent 5988-7401EN is part of a series of mass spectrometers designed to deliver exceptional sensitivity and resolution for a variety of applications. This advanced instrument is particularly well-known for its versatility in mass spectrometry, enabling researchers to perform complex analyses with ease. Its flexibility makes it suitable for various industries, including pharmaceuticals, environmental testing, and food safety.

One of the standout features of the 5988-7401EN is its groundbreaking technology in ion detection. This mass spectrometer utilizes a unique technology that significantly enhances ion transmission and improves signal-to-noise ratios, resulting in more reliable and reproducible data. This capability is critical for trace analysis, where detecting low-abundance compounds is essential.

Moreover, the 5988-7401EN offers a wide mass range and fast scan speeds, making it suitable for both small molecule identification and larger biomolecules. This instrument can analyze complex mixtures with high accuracy, which is vital for researchers needing to understand intricate chemical compositions.

Additionally, the user-friendly interface of Agilent's mass spectrometer enhances productivity. With streamlined software that allows for easy operation and data analysis, researchers can efficiently set up experiments and interpret results, saving time and reducing the likelihood of human error.

Another important characteristic is its robustness and reliability. Built to withstand the demands of routine laboratory use, the 5988-7401EN ensures consistent performance over time, which is crucial for laboratories with high workloads.

In summary, the Agilent 5988-7401EN represents a significant advancement in mass spectrometry technology. With its impressive features, including exceptional sensitivity, a wide mass range, rapid scan speeds, and user-friendly software, it is an invaluable tool for researchers across various scientific disciplines. Whether it's for pharmaceutical development, environmental analysis, or food safety testing, the 5988-7401EN is designed to meet and exceed the analytical needs of modern laboratories.