Difference between revisions of "Cutipy Test"
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EMAC has provided a simple test script that can be run on a CutiPy to verify function. | EMAC has provided a simple test script that can be run on a CutiPy to verify function. | ||
+ | |||
+ | == Relevant Links == | ||
+ | [http://git.emacinc.com/micropython-public/micropython CutiPy Micropython Firmware] | ||
+ | |||
+ | [http://git.emacinc.com/micropython-public/micropython-doc CutiPy Micropython Documentation] | ||
+ | |||
+ | [http://git.emacinc.com/micropython-public/micropython/blob/emac-release/drivers/EMAC/test.py CutiPy Test Script] | ||
== Tools Required == | == Tools Required == | ||
Line 32: | Line 39: | ||
5: Buttons Test | 5: Buttons Test | ||
6: LCD Test | 6: LCD Test | ||
+ | 7: High Drive Output Test | ||
</syntaxhighlight> | </syntaxhighlight> | ||
Select any of these tests by typing the number of the test and pressing Enter | Select any of these tests by typing the number of the test and pressing Enter | ||
== Tests == | == Tests == | ||
+ | <br> | ||
+ | {{note | At any time during testing, CTRL-D may be used to exit a test or reboot the board}} | ||
+ | |||
=== 1. Battery Voltage Test === | === 1. Battery Voltage Test === | ||
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=== 7. High Drive Outputs Test === | === 7. High Drive Outputs Test === | ||
− | For this test, you'll need an oscilloscope or similar device to be able to detect the pins toggling. | + | For this test, you'll need an oscilloscope or similar device to be able to detect the pins toggling. Note that the pins toggle LOW when driven. |
Once you select this test, the script will toggle the first High Drive Output pin, which is pin 34 on the HDR1 header. | Once you select this test, the script will toggle the first High Drive Output pin, which is pin 34 on the HDR1 header. | ||
Line 77: | Line 88: | ||
Each time you press 'y', the script will cycle through the the 8 high drive outputs on the HDR1 header in the following order: | Each time you press 'y', the script will cycle through the the 8 high drive outputs on the HDR1 header in the following order: | ||
34 -> 33 -> 36 -> 35 -> 38 -> 37 -> 40 -> 39 -> repeat | 34 -> 33 -> 36 -> 35 -> 38 -> 37 -> 40 -> 39 -> repeat | ||
+ | |||
+ | == Additional Information == | ||
+ | [http://wiki.emacinc.com/wiki/Micropython Micropython] | ||
+ | |||
+ | [http://wiki.emacinc.com/wiki/Micropython_Bluemix Bluemix on Micropython] | ||
+ | |||
+ | [http://wiki.emacinc.com/wiki/Wifi_and_mqtt_on_the_rs9113 Wifi and MQTT on the RS9113 in Micropython] | ||
+ | |||
+ | [[Cutipy-MicroPython Bluetooth LE demo | Cutipy-MicroPython Bluetooth LE demo]] |
Latest revision as of 10:18, 16 April 2021
EMAC has provided a simple test script that can be run on a CutiPy to verify function.
Contents
Relevant Links
CutiPy Micropython Documentation
Tools Required
- Desktop PC
- USB to mini-USB cable
- Micro SD Card (optional)
- Oscilloscope (for testing High Drive Outputs)
Running the Test
1. To begin testing the CutiPy, simply connect it via Mini-USB to USB to your computer and open a serial port monitoring program such as Minicom on linux or PuTTY on Windows.
2. Once you're able to communicate with Micropython's REPL, start the test be entering:
import test
3. You should see a menu come up:
1: Battery Voltage Test
2: Battery Charger Test
3: RTC Set Test
4: SD Card Test
5: Buttons Test
6: LCD Test
7: High Drive Output Test
Select any of these tests by typing the number of the test and pressing Enter
Tests
NOTE |
At any time during testing, CTRL-D may be used to exit a test or reboot the board |
1. Battery Voltage Test
The Battery Voltage test will print out the voltage the CutiPy is reading at the battery.
2. Battery Charger Test
The Battery Charger Test will print out whether or not it detects the battery charger as being connected.
3. RTC Set Test
The RTC Set Test will set the allow you to set the time in the RTC and will then read it back.
If the time that was read back matches the time you input, the RTC is working.
4. SD Card Test
For this test, you'll need an SD card inserted into the CutiPy's SD card slot. Note that the SD card will be written to.
This test will write a file to the SD card and attempt to read it back. If it succeeds, the test will print that it passed.
5. Buttons Test
When you select this option, the buttons on the back of the board will become declared. Each button will simply print out a message when pressed.
6. LCD Test
When this test is selected, the LCD should turn on and the message "Hello World" should be displayed.
7. High Drive Outputs Test
For this test, you'll need an oscilloscope or similar device to be able to detect the pins toggling. Note that the pins toggle LOW when driven.
Once you select this test, the script will toggle the first High Drive Output pin, which is pin 34 on the HDR1 header.
From there, the script will prompt you:
Press 'y' to continue, any other key to exit loop
Each time you press 'y', the script will cycle through the the 8 high drive outputs on the HDR1 header in the following order: 34 -> 33 -> 36 -> 35 -> 38 -> 37 -> 40 -> 39 -> repeat