Toshiba TRST-A10 SERIES, TSMB0039901, SPAA-207-R1 owner manual Removing Jammed Paper

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6. GENERAL MAINTENANCE

SPAA-207-R1 6.2 Removing Jammed Paper

6.2Removing Jammed Paper

1.Turn the power OFF.

2.Open the printer cover.

3.Remove the jammed paper. DO NOT USE any sharp implement or tool as these will damage the printer.

4.Clean the print head and platen, then remove any further dust or foreign objects.

5.Re-load the receipt roll. (Refer to Section 5.3 Loading the Receipt Roll.)

6.After closing the printer cover, turn the power ON. The printer will initialize the auto cutter to restore the printer stand-by.

6-2

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Contents TRST-A10 Series CE Compliance for EU only Safety Summary Precautions Request Regarding MaintenanceTable of Contents Product Overview FeaturesIntroduction Specifications PrinterDescription Mm PaperReceipt Roll Front/Rear View AppearanceLED and Feed Button Problem What to Do Where to Go Connectors DC24V Socket connectorSerial interface connector USB interface connectorSET UP Procedure Requirements for OperationRS-232C cable pin configuration Strobe Setting up the Printer Installation Procedure Connecting the Power Cord and Interface Cable Installation Procedure Drawer interface connector 6-pin modular connector Connecting the DrawerGround terminal 6-pin modular connector Loading the Receipt Roll Edge Self Test Print ExitRolling Ascii print test Receipt Print test Receipt 00000008 Duty check print test ReceiptCurrent Setting Form Print current settingGeneral Maintenance CleaningRemoving Jammed Paper Problem Check Point TroubleshootingSolution Waste Recycling information for users

SPAA-207-R1, TRST-A10 SERIES, TSMB0039901 specifications

The Toshiba TSMB0039901, part of the TRST-A10 Series, is a high-performance semiconductor device designed for a range of electronic applications. Renowned for its reliability and robust characteristics, this component is particularly suited for power management in various consumer and industrial electronics.

One of the main features of the TSMB0039901 is its outstanding thermal management capabilities. Designed to operate efficiently across a wide temperature range, it ensures stable functionality even under high-stress conditions. This is critical for applications in automotive electronics, industrial automation, and consumer gadgets where temperature fluctuations can impact performance.

The TRST-A10 Series incorporates advanced technologies, including Toshiba’s proprietary MOSFET structure, which enhances its switching efficiency. This leads to reduced power loss during operation, making the device an excellent choice for energy-efficient designs. The low on-resistance characteristic minimizes heat generation, contributing to the longevity of the component itself and the overall system efficiency.

In terms of electrical performance, the TSMB0039901 boasts high-speed operation, making it adept at handling rapid switching tasks. Its fast recovery time facilitates increased performance in high-frequency applications, such as wireless communication systems and data processing units. This ensures that devices powered by the TSMB0039901 can operate smoothly and responsively.

A notable characteristic of the TRST-A10 Series is its integration capabilities. The TSMB0039901 is designed for seamless incorporation into various electronic architectures, whether in series with other components or as part of a more extensive circuit. This flexibility makes it ideal for engineers seeking to optimize their designs without extensive modification.

The TSMB0039901 is also compliant with international safety and environmental standards, ensuring that devices developed using this semiconductor meet stringent regulations. This dedication to safety ensures that manufacturers can trust the TSMB0039901 in applications where reliability is paramount.

Overall, the Toshiba TSMB0039901 from the TRST-A10 Series offers an impressive combination of thermal management, power efficiency, and high-speed operation. These features position it as a versatile and dependable solution for modern electronic design needs, accommodating a wide range of applications across different sectors, from consumer electronics to industrial systems.