Anritsu S331C, S113C, S332C, S114C manual Error Message

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Chapter 2 Functions and Operations

Table 2-2.Self Test Error Messages

Error Message

Description

BATTERY LOW Battery voltage is less than 9.5 volts. Charge battery. If condition per- sists, call your Anritsu Service Center.

EXTERNAL POWER LOW

PLL FAILED

External supply voltage is less than 12.5 volts. Call your Anritsu Ser- vice Center

Phase-locked loops failed to lock. Charge battery. If condition persists with a fully charged battery, call your Anritsu Service Center

INTEGRATOR

Integration circuit could not charge to a valid level. Charge battery. If

FAILED

condition persists with a fully charged battery, call your Anritsu Ser-

 

vice Center.

EEPROM R/W FAILED

OUT OF TEMP. RANGE

Non-volatile memory system has failed. Call your Anritsu Service Center.

Ambient temperature is not within the specified operating range. If the temperature is within the specified operating range and the condition persists, call your Anritsu Service Center.

RTC BATTERY The internal real-time clock battery is low. A low or drained clock bat-

LOWtery will affect the date stamp on saved traces. Contact your nearest Anritsu Service Center.

LO LOCK FAIL The local oscillator in the spectrum analyzer has phase lock loop er- rors. If condition persists with a fully charged battery, call your Anritsu Service Center.

POWER MONITOR FAIL

BATTERY CAL LOST

MEMORY FAIL

The time and date Have not been set on this Site Master. To set it, after exit- ing here press the <SYS> [CLOCK] keys. Press ENTER or ESC to continue

Failure of the power monitor system board voltages. If condition per- sists, call your Anritsu Service Center.

Battery communication failed. The indicated battery charge status may be invalid. If condition persists, call your Anritsu Service Center.

The EEPROM test on the Site Master main board has failed. If condi- tion persists, call your Anritsu Service Center.

The time and date are not properly set in the Site Master. If condition persists, call your Anritsu Service Center.

Note: A listing of Anritsu Service Centers is provided in Table 1-2 , page 1-8.

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Contents Users Guide Warranty Page Table of Contents Power Measurement Iii/iv Page Description Standard AccessoriesChapter General Information IntroductionOptions Optional AccessoriesPerformance Specifications Description Site Master Spectrum Analyzer Calibration Preventive MaintenanceInstaCal Module Annual VerificationAnritsu Service Centers Chapter Functions and Operations Test Connector PanelActive Function Block Soft Keys Front Panel OverviewMode Function Hard KeysClear Keypad Hard KeysAuto MODE=FREQ FREQ/DIST Softkeys Soft KeysMODE=DTF FREQ/DIST Softkeys MODE=SPECTRUM Analyzer FREQ/DIST Amplitude Softkeys Power Monitor Mode Soft Key Labels Functions and Operations Functions and Operations Amplitude RUN/HOLD button Functions and Operations Power Monitor Menu Functions and Operations Limit SYS Self Test SymbolsError Codes Self Test ErrorsError Message ERRORD2 Range ErrorsInstalled InstaCal Error MessagesError MessageDescription Charging the Battery in the Optional Charger Battery InformationCharging a New Battery Charging the Battery in the Site MasterBattery Life Battery Charge IndicatorImportant Battery Information Chapter Getting Started Power On ProcedureCalibration Select the Frequency or DistanceCalibration Verification Trace Characteristics in Return Loss ModeCalibration Manual Calibration ProcedureOffset Method InstaCal Module VerificationTermination Method Calibration with the Test Port Extension Cable InstaCal Module Calibration ProcedureAuto Scale Setting the ScaleSave and Recall a Setup Saving a SetupRecalling a Display Recalling a SetupSave and Recall a Display Saving a DisplayChanging the Display Language Set the Distance and Cable TypeChanging the Units Printing a Screen PrintingPrinter Printer Switch SettingsUsing the Site Master Soft Carrying Case Using the Soft Carrying CaseLine Sweep Fundamentals Chapter Cable & Antenna MeasurementsCable & Antenna Measurements Information Required for a Line SweepSystem Return Loss Measurement Typical Line Sweep Test ProceduresInsertion Loss Measurement Procedure Cable Loss ModeSet M1 to Marker to Peak Set M2 to Marker to Valley Typical Transmission Line Cable Loss Trace Procedure Return Loss ModeTypical Return Loss Trace Distance-To-Fault DTF Transmission Line Test Shows an example of a typical DTF return loss trace Procedure DTF-SWR ModeAntenna Subsystem Return Loss Test 11/4-12 Page Occupied Bandwidth Chapter Spectrum Analyzer MeasurementsChannel Power Measurement with the Site Master Channel Power MeasurementProcedure Example Acpr Specification Adjacent Channel Power MeasurementCW Wave Out-of-Band Spurious Emission Measurements In-Band/Out-of-Channel Measurements Field Strength Measurement VdBV PdBm Antenna CalculationsPage Power Measurement Chapter Power MeasurementDisplaying Relative Power System Requirements FeaturesChapter Site Master Software Tools Communication Port Setting InstallationDownloading Traces from the Site Master Using Software ToolsInterface Cable Installation Graph Titles Display ModePlot Capture Plot PropertiesMisc Trace Overlay or Plot OverlaySaving Traces MarkersCreating a Custom Cable List Custom Cable ListSaving a Plot to a Spreadsheet Querying the Site Master Cable List Entering Antenna FactorsUploading a Cable List Printing Formats Uploading Antenna FactorsCreating a Database Appendix a Reference Data Coaxial Cable Technical DataAppendix a Reference Data A-4 Page Examples Appendix B WindowingIntroduction Appendix B Windowing B-4 Page

S113C, S332C, S114C, S331C specifications

Anritsu, a leader in test and measurement solutions, offers a range of handheld tools that cater to the needs of professionals in the RF and microwave industries. Among these tools are the Anritsu S331C, S114C, S332C, and S113C, each designed with unique features and technologies that make them suitable for various applications.

The Anritsu S331C is a Cable and Antenna Analyzer that is particularly valued for its accuracy and ease of use. It operates within a frequency range of 3 MHz to 4 GHz, making it applicable for both wireless and microwave communication systems. One of its standout features is the built-in Time Domain Reflectometry (TDR) function, which allows technicians to pinpoint faults in cables quickly. The S331C's intuitive touch-screen interface ensures seamless operation, while its lightweight design allows for portability in the field.

On the other hand, the Anritsu S114C is a versatile handheld RF power meter that can measure a wide range of power levels and frequencies. Its exceptional measurement accuracy and broad dynamic range make it suitable for various applications, from network testing to maintenance. It supports both peak and average power measurements, providing users with the flexibility to adapt to different testing scenarios. The S114C also features a memory function that allows users to store and recall measurement data easily.

The S332C model is designed for more advanced applications, offering vector network analysis capabilities. Operating within a frequency range of 5 kHz to 4 GHz, it is used for characterizing components such as filters, amplifiers, and cables. The S332C features a high-resolution display and supports automated measurements, making it a powerful tool for engineers involved in the design and validation of RF components.

Lastly, the Anritsu S113C is an excellent choice for professionals requiring a compact and efficient solution for insertion loss and return loss measurements. This analyzer covers a frequency range of 5 kHz to 4 GHz and is especially suited for testing antennas and RF components. The S113C's lightweight design, combined with its user-friendly interface, allows operators to conduct measurements easily in various environments, ensuring high performance and reliability.

In summary, the Anritsu S331C, S114C, S332C, and S113C represent a comprehensive suite of handheld analyzers that cater to diverse needs in the RF and microwave sectors. With features like TDR function, RF power measurements, vector network analysis, and a focus on portability, these instruments are essential tools for professionals looking to enhance their testing capabilities and ensure high-quality network performance.