6. LOADING THE MEDIA

EM1-33033

6. LOADING THE MEDIA

10. The media is now loaded and the sensor position is set.

Batch type:

Media

Fig. 6-9

NOTE: Set the selection switch to the STANDARD/STRIP position. Improper setting can affect the print quality.

Strip type:

1Remove enough labels from the leading edge media to leave 500 mm of backing paper exposed.

2Wind the backing paper onto the take-up spool and fix in position with the take-up clip. (Wind the paper counter clockwise around the spool as this is the direction it rotates.)

3Rotate the take-up spool anti-clockwise a few times to take up any slack in the backing paper.

 

Media

 

Take-up Spool

Front Plate

Take-up Clip

Black Screw

 

(HAA-0004001)

Backing Paper

 

Fig. 6-10

NOTES: 1. The backing paper is easier to feed back to the take-up spool if the front plate is removed.

2.When fitting the tace-up clip the longer side of the clip should be fitted into the shallow groove on the take-up spool.

3.When printer at a speed of 10"/sec., strip function is unavailable.

4.Set the selection switch to the STANDARD/STRIP position.

6-5

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Image 17
Toshiba EM1-33033E owner manual Batch type, Strip type

EM1-33033, EM1-33033E specifications

The Toshiba EM1-33033E and EM1-33033 are advanced lithium-ion battery packs designed for various applications, including electric vehicles and renewable energy storage. These models highlight Toshiba's commitment to innovation and performance in energy storage technology.

One of the standout features of the EM1-33033E and EM1-33033 batteries is their robust energy density. With a capacity optimized for long-lasting performance, these batteries can deliver enhanced power output, making them ideal for high-demand applications. This capability enables electric vehicles equipped with these battery packs to achieve higher ranges on a single charge, improving overall efficiency.

Both models are constructed using advanced lithium-ion technology, which helps in maintaining excellent thermal stability and safety. The lithium chemistry employed in these batteries reduces the risk of overheating and ensures more reliable operation under varying environmental conditions. Additionally, the design incorporates a high-quality thermal management system that maintains optimal battery temperatures during charge and discharge cycles.

Another critical characteristic of the Toshiba EM1-33033E and EM1-33033 is their fast charging capability. These battery packs can be charged quickly, reducing downtime and allowing for more flexible use in applications such as fleet management. Users benefit from shorter charging times, which is particularly advantageous in commercial settings where vehicle utilization rates are crucial.

The batteries also support a long lifecycle, thanks to Toshiba's proprietary manufacturing processes. The robust design ensures a high number of charge and discharge cycles, which translates into lower overall replacement costs and increased sustainability. Both models are designed with recyclability in mind, contributing positively to environmental impact considerations.

Moreover, Toshiba has integrated advanced monitoring systems within these battery packs. These systems provide real-time data on battery health, charge status, and performance metrics, allowing users to make informed decisions and optimize usage patterns.

In summary, the Toshiba EM1-33033E and EM1-33033 lithium-ion battery packs stand out due to their high energy density, fast charging capabilities, exceptional thermal stability, and long lifecycle. These features make them suitable for various energy storage applications, illustrating Toshiba's dedication to delivering reliable and efficient energy solutions for the future.