Plasmon LF 6602 user manual Shock and Vibration, AC Power Requirements

Page 17

SHOCK AND VIBRATION

The table below lists the conditions and limits for shock and vibration for the LF 6602.

Shock and Vibration Criteria and Limits

 

CONDITION

 

OPERATING

NONOPERATING1

STORAGE/TRANSIT2

 

Swept Vibration

 

5 to 22 Hz 0.01 in

5 to 44 Hz, 0.03 in

5 to 44 Hz, 0.03 in

 

(Bidirectional)

 

Double Amplitude,

Double Amplitude,

Double Amplitude,

 

1 Octave/Min

 

22 to 500 Hz

44 to 500 Hz

44 to 500 Hz

 

 

 

0.25 g Peak

3.0 g Peak

3.0 g Peak

 

 

 

 

 

 

 

Shock 3

 

10 - msec Half Sine

 

 

 

(Host Retries May

 

Pulse of 5.0 g Peak4

 

 

 

Be Required and

 

 

 

 

 

Drive Performance

 

 

 

 

 

May Degrade During

 

 

 

 

Test

 

 

 

 

 

 

 

 

 

 

 

Unpacked (3 Axis)

 

 

5 - msec Half Sine

 

 

 

 

 

Pule of 5.0 g Peak

 

 

 

 

 

 

 

 

Packed on Pallet

 

 

 

31 - cm (18 - in)

 

 

 

 

 

Drop Test Flat

 

 

 

 

 

 

1 With media removed 2

In LMS-approved packaging 3

Shock repetition rate should be limited to allow mechanical

system transients to subside between pulses. 4 Limit at 5.0 g peak for LF 6602 cabinet. Limit at 3.0 g peak in

LF 6600/LF 6602 in front-to-back axis because media in shuttle will be displaced. The drive is not designed for pro- longed operation at these shock levels.

AC POWER REQUIREMENTS

The primary AC power cord type will depend on the LF 6602 configuration ordered. The primary AC power cord supplies power to the power socket strip located within the LF 6602 cabinet. Each LF 6602 is connected to the power socket strip with a grounded AC power cord. The power connector of each

LF 6600 is integrated into the AC power receptacle. Over current protection is provided by two fuses, which are also integrated into the receptacle with two spare fuses. Refer to the Replacing Fuses section for the fuse replacement procedure.

Each drive's power supply accepts the input line voltages listed in Table 3. The power supply is autoranging and does not require mechanical switching for input voltage or frequency selection.

AC Power Requirements

 

 

CURRENT

SPIN - UP

MINIMUM

FREQUENCY

AC VOLTAGE

SERVICE

(TYPICAL)

SURGE1

 

 

RATINGS

 

 

 

 

 

 

 

 

 

47 to 66 Hz

86.7 to 128 V

3.0 A

10.0 A

15 A

 

 

 

 

 

47 to 66 Hz

173.4 to 268 V

1.5 A

5.0 A

15 A

 

 

 

 

 

1 Less than 1 sec, cold start

NOTE

After the power has been turned off, the operator must wait 1 second before turning on the power again

97654438 E Page 17

Image 17
Contents Optical Disk Drive Page Page Warnung Agency Compliance and Approval Page Table of Contents Accessories Appendix a Related Publications ScopePage General Description Page Front Panel Drive CharacteristicsRear Panel Dimensions and Weight Temperature TEMPERATURE, Humidity and AltitudeShock and Vibration AC Power RequirementsTilt Range AC Power CordHeat Dissipation Particulate LimitsLocation of LF 6600 Warning Labels Page Unpacking the LF Unpacking and Repacking InstructionsUnpacking the LF Removing Banding Straps from LF EP005017 Positioning Ramp on Pallet Moving the Shuttle to the Home Position Repacking the LF Inspecting the LFShipping Bracket on Rear of LF 6602 Cabinet Manually Closing the Drives Baseplates Moving the Shuttle Assembly to the Shipping Position Page Page Installation Requirements InstallationScsi BUS Considerations Terminator LF 6602-to-Host Cable Connection Connecting Power and Scsi Cabling SINGLE-DEVICE Configuration Connector Verification MULTIPLE-DEVICE ConfigurationExtension Procedures LF 6602 Cabinet Configuration Showing Interlock Location Page Operating Instructions Controls and IndicatorsTEST/SELECT POWER-ON Procedure Modes of Operation Operating ModeOperating Condition DOC Display English French German Viewing the configuration View Config Configuration ModePage Main Menu View Configuration Messages Viewing the Configuration View ConfigDisplay HW Page Page Scsi ID Rd Ahead Setting the BUS Parity Checking Setting the Scsi IDSetting the Write Protect Option Setting the LanguageSetting the Load Switch Option Setting the Media Autoload OptionSetting the CDE Curs Option Setting the Read Ahead OptionSetting the Modsel RA Option Setting the Busy OptionSetting the MM Spinup Option Clear NvRAM Diagnostics Selftests Clear Rtpm Diagnostics Menu Part SET the Internal Drive Serial Number SET Serial # Page DRV SN Test Mode Media Cartridge Handling Page Setting the Write Protection Switch Affixing Labels Media Access DoorMedia Insertion and Removal LF 6600 Media Access Cartridge Insertion Cartridge Removal Opening the Baseplates Manual Cartridge Release MechanismRemoving the Bezel Back View of Bezel Retracting the Cartridge Media Loading Accessing Drives Operator MaintenanceTrim Panel Label Interlock Inspecting and Cleaning FAN and Blower Filters Replacing Fuses Media Cleaning Using Cleaning KIT P/N Media CleaningPage Plasmon AccessoriesProduct Part Type Connector a Connector B Description Number Table below list the optional media cleaning accessories Page German Translations / Übersetzungen INS Deutsche Appendix aAbmessungen UND Gewicht TEMPERATUR, Luftfeuchtigkeit UND SeehöheWechselstrombedarf Stoss UND VibrationKipptoleranz WechselstromerdungWärmeausstrahlung WarnhinweiseWarnung Auspachen DER LFWiederverpacken DES LF Installationsanforderungen ANSCHLUßÜBERPRÜFUNG Einstellen DIE Deice ID EinschaltverfahrenHandhabung VON Datenträgerkassetten Auswechseln VON Sicherungen Warnung

LF 6602 specifications

The Plasmon LF 6602 is a state-of-the-art storage solution that is designed to meet the demands of high-capacity data management and retention. This innovative device serves as an optical archive system that combines reliability, longevity, and advanced technology to ensure the preservation of critical data over extended periods.

One of the key features of the LF 6602 is its impressive storage capacity. The system is capable of holding up to 60 terabytes of data, making it ideal for organizations with large datasets, such as healthcare providers, financial institutions, and media companies. This vast storage capacity not only allows for the archiving of traditional data but also supports the growing needs for multimedia and big data applications.

The Plasmon LF 6602 utilizes advanced optical disc technology, specifically the write-once, read-many (WORM) format. This ensures that once data is written to the optical disc, it cannot be altered or deleted, which provides a high level of data integrity and security. This feature is particularly beneficial for compliance regulations and legal requirements, as organizations can be assured that their archived data remains unmodified.

In terms of performance, the LF 6602 stands out with its fast retrieval times and efficient data access. The integrated software provides a user-friendly interface that enables quick searches and metadata management, allowing users to easily locate and access files as needed. The system supports multiple disc formats and can accommodate various data types, enhancing its versatility for different applications.

Durability is another hallmark of the Plasmon LF 6602. The optical discs are resistant to environmental factors such as temperature variations and humidity, which significantly reduces the risk of data loss due to physical degradation. The long lifespan of the media, often exceeding 50 years, ensures that data remains accessible for future generations.

Moreover, the LF 6602 is designed with scalability in mind. As data requirements grow, organizations can expand their storage systems seamlessly, integrating additional units without disrupting ongoing operations. This flexibility allows businesses to adapt to changing needs without incurring significant costs.

In summary, the Plasmon LF 6602 is a cutting-edge optical archive system characterized by its substantial storage capacity, data integrity through WORM technology, fast performance, high durability, and scalability. Its collective features make it an ideal choice for organizations looking to secure and manage their critical data efficiently and effectively.