Welcome to the nanoFramework nano firmware flasher tool repository! This repo contains the nano firmware flasher tool. It's a.NET Core CLI Global Tool that allows flashing a nanoFramework target with nanoBooter, nanoCLR, managed application or backup files. The installation of the creative EMU10K1 Audio Processor (WDM) windows driver is a fairly simple process. First and foremost, the user should download the file from its official site and set it up on the computer. This is followed by unzipping the file and connecting it to the computer.
Tiny GSM/GPRS module with SIMCOM's SIM800H. Measuring only 39x48[mm] this module has everything you need to 'IoT enable' your next project. We provide .NET nanoFramework and Micro Framework drivers that makes using it a breeze.
This is basically a carrier board for the SIMCOM's SIM800H, you can use it with your own software driver. It's not mandatory to use ours.
Features (supported by the .NET nanoFramework and Micro Framework drivers)1):
- Quad band 850/900/1800/1900MHz
- GPRS multi-slot class 12/10; mobile station class B
- Supply voltage range 3.4 to 4.3V
- TCP sockets (with TLS support)
- HTTP(S) client
- SMS
- SNTP
- GPS like location service through SIMCOM API
- UART pins supporting 3.0V and 3.3V levels
- Power and network status LEDs
- SIM card holder
- uFL antenna connector
- Castellation pins for easy prototyping and production use
- Size: 39x48[mm]
- Operating temperature range: -40 to +85°C
- Certifications: CE, GCF, FCC, ROHS, REACH
1) SIM800H has several other features that are still available but aren't exposed through the supplied driver and/or hardware pins.
SIM800H modes and power consumption
- 2A peak burst when transmiting
- 148mA to 344mA @ Active GPRS data mode
- 1.02mA @ Idle with full funcionality
- 0.796mA @ Minimum funcionality
- ~60uA @ Power down
Power supply
Any power supply (4.3V max!) able to withstand the 2A peak bursts will work. We recommend using a Li-Polymer or Li-Ion battery.
Available pins & signals
- UART signals: TX,RX, DTR, RTS & CTS
- Power-key pin (to control SIM800H power on/off)
- Ring indicator (to signal incoming call or SMS)
- 2xVcc (4.3V max!)
- 8xGND
UART signal levels
UART signals can be connected to host system using 3.0V or 3.3V voltage levels. The selection is carried through a two-position solde jumper. Default is 3.3V.
LED indicators
The module includes LEDs for power and network status.
LEDs have relevant power consumption and conserving power is important in battery powered devices. For this reason LEDs are powered through a solder jumper that you can open in production devices after initial testing and debuging. In field operation you can easily short the jumper with a screw driver tip, for example, for a quick visual debug of the module status.
Power LED (green)
On when module is active (powered on).
Network status LED (blue)
- fast blink (~300ms period) on GPRS communication active
- blink (~800ms period) when module is not registered
- slow blink (~3s period) when module is registered
.NET nanoFramework driver, support libraries and code examples
We actively maintain a driver for .NET nanoFramework that is available as a Nuget package.
We actively maintain a .NET nanoFramework build of AMQP Lite for the SIM800H module available as a Nuget package.
Check the documentation of the .NET nanoFramework driver here.
For code samples and example apps please check the GitHub repository
.NET Micro Framework driver, support libraries and code examples
We provide a driver for .NET Micro Framework (v4.3 and v4.4) that is available as a Nuget package.
We provide a .NET Micro Framework (v4.3 and v4.4) build of AMQP Lite for the SIM800H module available as a Nuget package.
Check the documentation of the .NETMF driver here.
Download Eclo Driver Win 10
For code samples and example apps please check the GitHub repository
Eagle library
Download Eclo Driver Download
Download the Eagle CAD library with the module footprint and component here.
Support or Contact
Scanzen Eko Driver Download
This module is supplied by Eclo Solutions. You can reach us here.