Introduce RS232 connectivity to the device using the highly-economic MAX232 Board. It is an interface add-on board designed to connect the built-in MAX232 circuit to a prototype board. An essential for establishing RS232 communication, the MAX232 chip is a dual driver/receiver that includes a capacitive voltage generator to supply TIA/EIA-232-F voltage levels. Each receiver converts TIA/EIA-232-F inputs 1.0-?
Add high-quality, stable yet affordable solution for adding RS232 connectivity to the device with the MAX3232. The MAX3232 Board is small-sized add-on board that acts as an interface between a microcontroller and RS232 devices, such as PC
Microphone AMP Board
The Microphone AMP is an accessory board that amplifies audio signals detected by the microphone provided onboard. The microphone is connected to a LM4864 audio power amplifier that works well for use in low-voltage consumer applications. The detected audio signals are amplified and sent to the connector used to connect a loudspeaker with an impedance of 4, 8, or 16 ohm. In order to keep the external part count low, the gain is internally set to 20. However, with the addition of a potentiometer and capacitor between pins 1 and 8, user can increase the gain up to 200. Microphone AMP Board is provided with screw terminals for easy connectivity. The power supply voltage has to be stabilized and in a range between 3.3V and 5V DC.
With such features, Microphone AMP Board is an ideal choice for general purpose audio applications, cellular phones, personal computers, and many more.
microSD Card Board
The microSD Card Board is designed to read microSD memory cards in a simple and quick manner. If the user design requires fast data acquisition or storage of audio, video, graphics etc. then, it should have a removable storage option. Generally, microcontrollers have limited built-in storage. The microSD Card Board is a simple and safe solution to your data storage needs. With this, the user can store large amount of data into a small space. The board is connected to a development system through a 2x5 connector and is designed to connect with a wide range of development systems. The microSD Card Board uses industry-standard Serial Peripheral Interface for communication at high data rates. It is equipped with voltage translators and DIP switches that allow for easy connection with both 3.3V and 5V development systems. The silkscreen marking on the board reveals the settings required for specific mikroElektronika development systems.
Note: A microSD card is not included.
microSD Card PROTO Board
The microSD Card PROTO Board is equipped with a card slot for microSD memory cards that allow for simple and fast data acquisition or storage of audio, video, images and other multimedia data. Generally, microcontrollers serve as a removable storage option, but have limited built-in storage. The microSD Card PROTO Board is a simple and safe solution to your data storage needs. With this, the user can store large amount of data into a small space. The board is connected to a development system through a 2x5 connector and is designed to connect with a wide range of development systems.
The microSD Card PROTO Board uses industry-standard Serial Peripheral Interface for communication at high data rates. It is equipped with voltage translators and DIP switches that allow for easy connection with a 3.3V development system. The silkscreen marking on the board reveals the settings required for specific mikroElektronika development systems. Compatible with standard prototyping boards, the spacing between the pin pads is 0.1
The mikroBuffer Board is an accessory board that lets the user to buffer the analog signals connected to prototype device inputs. This device amplifies an analog voltage signal by using a unity gain operational amplifier. It comprises of two MCP6284 operational amplifiers that put together feature 8 inputs. This additional board comes equipped with an IDC10 female header. Compatible with mikroElektronika development boards, and DIP switches for selecting input lines, the IDC10 connector CN1 gets the mikroBuffer board easily connected to a microcontroller. The amplified signal then gets delivered to the microcontroller analog inputs.
This economical, low power consuming mikroBuffer Board makes use of CN2, CN3, CN4, and CN5 connectors for establishing connection with the analog signal generating device.
mikroBuffer PROTO Board
Buffering the analog signals connected to prototype board inputs using unity gain operational amplifiers become simplified and cost-efficient for the user, with the help of the mikroBuffer PROTO Board. This accessory board features low-cost design and consumes very less power, and thus results in great financial savings for the user. Compact design of this additional board makes it fit for perfect integration with the existing board setup and renders it compatible for use in a number of general-purpose applications. The mikroBuffer PROTO Board has been equipped with a Microchip Technology enabled MCP6284 operational amplifier. This op amp has got a total of 4 inputs. This additional board gets quickly connected to a microcontroller by way of a 1 x 6 connector CN1. CN2 and CN3 connectors make it possible for the board to establish a secure connection with an analog signal generating device, so that the amplified signal can get delivered to the microcontroller analog inputs. The board, which comes designed to fit into standard breadboards with 100mil distance between points, has a 5 MHz Gain Bandwidth Product (GBWP) and a 65?? phase margin.
It is perfect for being applied in battery-powered applications, auto industry, portable equipment manufacturing industry, analog filter designing and all MCU architectures.
mikroBUS Shield for MikroMedia
MikroBUS shield is an expansion board that that enables MikroElektronika's extensive range of mikroBUS-compatible click boards to be easily added to your mikromedia board. Designed to be pin-compatible with all mikromedia boards, it has two mikroBUS host connectors along with a prototyping area. With this mikromedia shield, user is capable of adding different functionalities, including Ethernet, ZigBee, Temperature sensors, RS-485, GPS, and what not. This mikromedia shield brings a whole new perspective to your mikromedia. mikroBUS shield is supplied with two 26-pin female socket headers, four 8-pin female socket headers for mikroBUS host connection. The board comes with clearly printed pin functions.
The mikroBUS shield is an ideal choice for embedded design and development applications.
mikroDrive Board is an add-on board that employs a high-voltage, high-current ULN2803AN Darlington transistor array. This array of 8 NPN Darlington transistors allows interfacing between a low-level logic circuitry and multiple peripheral power loads. The ULN2803A IC allows digital outputs capable of providing current of only up to several milliamperes to be connected to devices that require driving current of up to several hundreds of milliamperes. The mikroDrive Board provides power loads up to 260W (350 mA x 8, 95V). The transistors are of
MikroTFT is a TFT LCD touchscreen board featuring MI0283QT-9A 2.8" TFT colour display with 320 x 240 pixel resolution. Powered by ILI9341 display controller, the display offers exceptional graphics with each pixel capable of displaying 262K RGB colours. A resistive touch panel over the TFT display allows it to be used as an input device. MikroTFT is provided with two 1x26 side headers to ensure easy connection with other development boards and devices. It can be integrated into device or can be used as a development tool. Whichever solution the user chooses, the user is capable of retaining the same front panel and same integration. Furthermore, mounting holes (?