Digital Spectrum 1862-MF-61-7 Transferring Slideshows to/from MemoryFrame, Additional Commands

Page 31

Important! For Memory Card Readers, make sure that the memory-card is already inserted into the card reader before connecting the USB cable to the MemoryFrame.

Connect the MemoryFrame directly to the USB peripheral using the USB cable that was provided with the peripheral. Connect the USB connector of the USB peripheral to the “Camera” connector of the MemoryFrame. See Figure 15.

FIGURE 15 – CONNECTING A USB PERIPHERAL

10.2Upload or Play Images Directly from a USB Device

The MemoryFrame is capable of playing JPEG images located in USB peripherals, allowing the images to be uploaded directly into the MemoryFrame to either append the internal slideshow with images until the internal memory of the MemoryFrame is full or replacing the existing slideshow with external images until full. You may also play the images form the USB device without disturbing the internal slideshow. You may also play a slideshow (.pd2) from the USB device without disturbing the internal slideshow, or replace an internal slideshow from a slideshow on the USB device. Use the onboard Menu button and “Import/Play” function on the MemoryFrame.

You may upload or play images stored in a USB digital camera in the same manner as any USB storage device, making sure:

The images are JPEG format

The camera is in the standard (driver-less) mode when taking pictures

9. Transferring Slideshows to/from MemoryFrame

Table 2 below shows the various options under the Digital Frame and Help pull-down menus in Digital PixMaster. The four (4) commands in the Digital Frame pull-down menu involve communication with the MemoryFrame and can only used when a MemoryFrame is connected directly to the PC or part of a network. The MemoryFrame must be displaying a slideshow (i.e. not in Menu Mode).

Digital Frame

 

Help

Send Slideshow

 

Contents

Retrieve Slideshow

 

Release Notes

Update Firmware

 

 

About Digital PixMaster…

Properties

 

 

Table 2 – Additional Commands

Note: Exit any on-board-button menus to return to displaying the current slideshow. This will place the MemoryFrame in the mode that is required to communicate with the PC.

When the MemoryFrame is connected to a computer running Digital PixMaster™, the MemoryFrame accepts and processes communication between the computer and the MemoryFrame. Digital PixMaster™ can retrieve the current slideshow in a MemoryFrame to the PC (retrieve) for saving or editing, or it can replace the slideshow in the MemoryFrame with a new one from the computer (send). To transfer slideshows from the PC to the MemoryFrame or from MemoryFrame back to the PC, the MemoryFrame must be connected to the PC via the different USB connection methods (USB direct and wireless or wired Ethernet).

Important! For Digital PixMaster to communicate to the MemoryFrame, you first need to prepare the MemoryFrame for communicating to a PC, as described in the section below.

9.1Preparing MemoryFrame to Communicate to a PC

The MemoryFrame cannot be managed or communicate with a PC while it is in the Menu system mode. In all cases, the MemoryFrame must be in Display mode for Digital PixMaster™ to communicate. Exit any on-board button menus and return to displaying the current slideshow. This will place the MemoryFrame in the mode that is required to communicate with the PC.

Copyright© 2006 Digital Spectrum Solutions, Inc.

Page 28

Copyright© 2006 Digital Spectrum Solutions, Inc.

Page 25

Page 30 Page 32
Image 31
Page 30 Page 32
Contents Table of Contents Connecting a USB Storage Peripheral Tips and Techniques MemoryFrame Limited WarrantyIntroduction Redo FLASH- DON’T Power OFF error code numberInternal Storage Digital PixMaster Update Firmware CommandAnywhere Anytime Broad Mounting ConfigurationsUpgrading MemoryFrame Software/Firmware How to Update MemoryFrame FirmwareFederal Communications Commission Statement Using MemoryFrame in Direct ModeWorldwide Electromagnetic Emissions Statement Product Serial Number & Registration MemoryFrame SpecificationsGetting Started Unpacking a MemoryFramePower-on Initialization Connecting MemoryFrame to the Power SupplyOn/Off Switch Control Buttons and ConnectorsFrame Lock Menu ForwardSelect ReverseTroubleshooting / FAQ Overview Using PowerPoint Slides with MemoryFrameDigital PixMasterTM Software Securing MemoryFrame in Business EnvironmentsInstalling MemoryFrame USB Drivers Installing Digital PixMaster SoftwareMinimum PC System Requirements Save as High Quality Steps to Create 169 Content for MemoryFrame PortraitCreate the 916 Source Image Resize toFinal Result Create the 169 Source Image Building SlideshowsNaming and Saving Slideshows Pull-Down Menus, Controls, CommandsSteps to Create 169 Content for MemoryFrame Landscape Application Commands File, Edit, View, Digital FrameTips and Techniques Background Fill Color Special Button Current SettingTransitions Display Slide Captions Enabled or DisabledDelete All Slides From Memory PreferencesText Caption Display TimePreview Slideshow Attach Audio ClipPlay Slideshow Import/Play from USB Port Portrait/Landscape ModesPreparing the MemoryFrame Exit Configuration MenuShow This Slide Yes/No Record AudioImages Delete Slide Set Background Fill ColorRotate 90º Transition Effect Set Slide Duration Set Transition EffectResume Slideshow Configure SlidesMain Menu Configure MemoryFrame for Photo SharingMenu Navigation MemoryFrame Onboard Menu SystemPreparing MemoryFrame to Communicate to a PC Additional CommandsTransferring Slideshows to/from MemoryFrame Upload or Play Images Directly from a USB DeviceConnecting a USB Storage Peripheral

1862-MF-61-7 specifications

Digital Spectrum 1862-MF-61-7 is an innovative communication system designed to enhance the performance and efficiency of various applications within the digital spectrum. Offering a range of robust features and advanced technologies, this model stands out in today’s increasingly connected world.

One of the hallmark features of the Digital Spectrum 1862-MF-61-7 is its superior data transmission capabilities. It supports high-speed data transfer rates, making it ideal for environments where large amounts of data need to be transmitted quickly and reliably. This system employs advanced modulation techniques that optimize bandwidth utilization, ensuring that communication is not only fast but also efficient.

The architecture of the Digital Spectrum 1862-MF-61-7 integrates cutting-edge technologies to ensure seamless connectivity. One key technology is its adaptive frequency hopping, which minimizes interference and enhances signal quality. By dynamically changing frequencies, the system can avoid congested channels and maintain stable connections in challenging environments.

Another important characteristic of this communication system is its scalability. The Digital Spectrum 1862-MF-61-7 can easily adapt to meet the changing needs of users. Whether in a small operation or a large enterprise, the system can be customized to fit various applications, supporting multiple end devices simultaneously. This versatility makes it an attractive option for businesses looking to future-proof their communication infrastructure.

The digital signal processing capabilities of the Digital Spectrum 1862-MF-61-7 further contribute to its robust performance. With advanced algorithms for noise suppression and error correction, the system ensures high-quality transmission even in less-than-ideal conditions. This feature is particularly important for critical applications such as emergency response communications and remote monitoring systems, where reliability is paramount.

Another defining characteristic is its user-friendly interface. The Digital Spectrum 1862-MF-61-7 includes intuitive controls and management software, simplifying the deployment and maintenance processes. Users can easily configure settings and monitor performance metrics in real-time, helping to facilitate proactive management of the system.

In conclusion, the Digital Spectrum 1862-MF-61-7 represents a significant advancement in digital communication technology. Its combination of high-speed data transfer, adaptive frequency hopping, scalability, and advanced signal processing makes it an ideal choice for modern communication needs. As more industries continue to integrate digital solutions, this system is poised to play a crucial role in ensuring efficient and reliable communication.
Top Page Image Contents