Our midiBeam v2 Wireless system consists of a transmitter and a receiver unit sold together. Our midiBeam v2 Wireless can transfer MIDI signal for a few hundred meters safely and now we have a complete web based control panel to set all of its features.
You can use your favourite MIDI controller as free as you've never imagined. Our midiBeam v2 Wireless advanced wireless midi transmission system makes good old MIDI cable obsolete. Additionally, if running headless we have tips HERE.MidiBeam v2 Wireless WIRELESS MIDI TRANSMISSION SYSTEM We have a guide in the Support section that includes steps on freeing storage space and increasing the performance of robot computers, such as single-board computers. You are now connected to the EZ-B v4 via hardwire for instant response and no latency.
Select the COMx port from the drop-down in the connection control and press CONNECT. In ARC, press the CONFIG button on the connection control and enable DTR Enable. Due to the lack of hardware UARTs on the LattePanda, this converts the onboard Arduino Leonardo into a USB UART adapter at 256,000 baud. Upload the following program to the onboard Arduino Leonardo on the LattePanda: EZB_Passthrough.zip. Select Advanced Settings and change the Serial/USB Connection dropdown to 256000.
This is done by connecting to the EZ-B v4 via Wi-Fi and visiting in your browser. The EZ-B v4 web configuration must be configured in the Advanced Tab to change Serial/USB Connection to 256000 BAUD. Connect the EZ-B camera's GND to LattePanda pin #23 (GND) on the Arduino header. Connect the EZ-B camera's RX to LattePanda pin #4 (D1 TX) on the Arduino header. Connect the EZ-B camera's TX to LattePanda pin #2 (D0 RX) on the Arduino header. It's best to modify an existing EZ-Robot camera cable to access the pins. View the datasheet of the EZ-B v4 to see the pinouts of the camera connection. The camera port of the EZ-B v4 will be used for the hardwired connection.
For those who wish to directly connect an EZ-B v4 to the LattePanda can do so and have full access to the 24 gpio, 3 hardware UART, 8 adc, i2c, digital switching power supply and real-time streaming audio. While the onboard Arduino Leonardo is convenient, the amount of gpio is limiting. We highly recommend getting the shield to reduce spaghetti wiring on your robot :). Pins 3 and 9: 490 Hz, pins 5 and 6: 980 HzĭF Robot has a fantastic shield for the lattepanda that both powers it from 7-12v and breaks out the I/o for servos and sensors. Digital pin 0 is Uart #0 RX, and digital pin 1 is Uart #0 TX. The Digital pins can be used for PWM, servos and digital on/off. By adding this firmware, you can connect ARC to the local Arduino and control the GPIO directly.ĭownload Arduino Leonardo Firmware: EZ-Genuino_Leonardo.zip Pinouts You can program on the Arduino Leonardo that's built into the LattePanda.
In the meantime, download the Arduino firmware below. This can be done by viewing the Connection Config screen (same place you set the baudrate) and checking DTR Enabled checkbox.
This firmware works with ARC versions greater or equal to 2019.06.25.00.ĭue to an undocumented bug feature (?), the Arduino Leonardo's USB serial driver requires DTR Enabled to trigger received data events.
The LattePanda can run Windows 10 and therefore, a full version of ARC! The LattePanda also has an Arduino Leonardo built on-board, which means you can load the EZB Firmware and have a self contained and very capable PC robot controller. The LattePanda is a small single board computer (SBC), similar to the raspberry Pi and a kabillion times more powerful.