9.7 lcd panel specification free sample

This is an E-Ink display HAT for the Raspberry Pi, 9.7inch, 1200x825 resolution, with embedded controller IT8951, communicating via USB/SPI/I80 interface, supports partial refresh.

Digital microscopeLD-LDM-D10is an advanced microscope with infinite optical system, compensation free 30° inclined Trinocular viewing head with 9.7 inch TFT touch screen display attachment to view and study high resolution image of the specimen. It allows person to view the sample without straining the eyes because of which quantitative analysis of samples at microscopic level is possible.

Digital microscope has wide and promising applications in the fields of bacteriology, cytology, botany, medical research field to study the details of the specimen on LCD screen.

The 13.3’’/9.7’’ System Board can drive either the 9.7” or 13.3’’ E Ink® electronic paper display. All hardware and firmware features are the same for both variants with the exception of supported display type.

The Visionect 13.3”’/9.7” System Board uses standards-based certified 2G/3G modules with a slot for a Micro SIM card, located on the back side of the board. The configuration of various APN settings (network-dependant) can be done manually. The integrated 2G/3G module supports Quad 2G, while supported 3G bands differ between three 3G module variants and are determined by regional/carrier compatibility. The bands need to be confirmed prior to ordering, so please send your target network/area with your order.

The Visionect 13.3”/9.7” System Board uses standards-based certified IEEE 802.11 B/G/N modules with WPA2-PSK encryption. The modules are configured to use WMM-Power Save features on access points that support the functionality.

The Visionect 13.3”/9.7” System Board can be powered directly, by using a 3.5-4.2V, 2A power supply or a single Lithium-Ion or Lithium-Polymer cell (3.7V-4.2V) with capacity between 1000 mAh and 10000 mAh. The attached battery is connected to the BAT connector, which is further connected to the LIPO charging circuit.

The Visionect 13.3”/9.7” System Board should be connected to the battery or power supply to ensure a stable power supply as well as a protection against spikes.

By connecting a 5V solar cell you could run a 9.7”/13.3” System Board forever, as long as you make sure that your energy consumption doesn’t deplete your batteries. The battery levels are displayed in the Management Interface.

Visionect System Board 9.7”/13.3” Visionect System Boards feature support for external buttons. For use in applications, please check the button push event section. Before use, check the external button extension scheme below.

The Visionect 13.3”/9.7” System Board is configured using the provided Micro USB configuration cable and the Visionect Configurator. You will use the Configurator to configure the network and other device parameters.

The Visionect 32” System Board is used to drive the 32” grayscale and color E Ink electronic paper displays, as well as a combination of up to four E Ink screens (4x9.7” or 4x13.3”). The Board comes with support for Ethernet, 3G and WiFi. It can be used to connect additional peripherals, such as external LED, ambient light sensor, low-temperature heater and others.

The 32” System Board can be used to drive the 32” E Ink display (both grayscale and color are supported) or up to four 9.7” or 13.3” displays driven simultaneously. The 32” E Ink panel connects to the board via 4 FFC cables, while the 9.7” or 13.3” displays require a flat flexible cable (FFC) and a custom display interconnect adapter provided by Visionect.

Visionect 13.3” and 9.7” System Boards use standards-based certified IEEE 802.11 B/G/N modules with WPA2-PSK encryption. The modules are configured to use WMM-Power Save features on access points that support the functionality.

Since the Visionect 32” System Board not include support for Lithium Polymer batteries like the 13.3” and 9.7” Boards , a solution is provided that can monitor an external battery connected to the Board. As different batteries behave differently (different discharge characteristics) we report the external battery voltage in mV. The conversion from mV to % can be performed by end user application - mV data is available in the device session or via the Visionect Software Suite API.

Like the Visionect 13.3”/ 9.7” System Board, the 32” Board is configured via using the provided Micro USB configuration cable and the Visionect Configurator.

The one big difference is the Micro USB configuration cable itself. While the 13.3” and 9.7” Boards require a special configuration cable provided with each Board, the 32” Board comes with the FTDI chip already integrated, which means a normal Micro USB cable can be used.