|Name||LED Blink Using Power Sequencing (AN 498)|
|Description||Powering components off and on - with minimal system intervention (also known as blink) - is a valuable power savings technique. Altera MAX 10 FPGAs are well suited for this due to their simple power sequencing and proprietary features. This application note illustrates a simple method for blinking an LED by using the auto stop and auto start capability of MAX 10 FPGAs. |
Many consumer and industrial application systems do not require the FPGA to be powered on at all times. In fact, it is preferable to have a system in which the FPGA powers on intermittently, as and when required only, and remains off for most of the cycle. MAX 10 FPGAs are designed to tolerate any possible power-on sequence. They also have one of the industry's lowest power-up timing characteristics (typically 200 microseconds for the EPM240 device, depending on the density of logic in the design).
This makes the MAX 10 FPGAs the perfect target device for such a system. The FPGA can be turned off when a task is complete and switched back on again for its next task. The self power down is caused by the FPGA itself, while the auto power up is caused by an external circuitry such as a simple RC circuit designed for the required delay. The entire scheme finds context in power savings, typically in battery operated systems which may be used for functions that are cyclical or periodic in nature (such as sampling for parameters in a telemetering system), where the power can be turned off when the FPGA can afford to take a break.
The FPGA generates two signals, power down and its complement to cause self power down by triggering an external circuit to shutdown the LDO supplying power to the FPGA. After the FPGA is off, the external circuit powers it back on after the designed delay of the external RC circuit. An LED glows upon power on and switches off after the FPGA is powered down.
|Development Kit||Non Kit Specific MAX 10 Design Examples|
|Installation Package|| Download|
Note: After downloading the design example, you must prepare the design template. The file you downloaded is of the form of a <project>.par file which contains a compressed version of your design files (similar to a .qar file) and metadata describing the project. The combination of this information is what constitutes a <project>.par file. In releases 16.0 or newer, you can simply double click on the <project>.par file and Quartus will launch that project.
Browse to the <project>.par file you downloaded, click next, followed by Finish, and your design template will be installed and displayed in the Project Navigator pane in Quartus.
Note: When a design is stored in the Design Store as a design template, it has been previously regression tested against the stated version of Quartus software. The regression ensures the design template passes analysis/synthesis/fitting/assembly steps in the Quartus design flow.
At the command-line, type the following command:
Once the process completes, then type:
|Total Downloads||12 (From 17 May 2016 to 13 Mar 2017)|
|Quartus II Version||Download Quartus II v16.0|
Last updated on May 17, 2016, 11:16 p.m.