From 73e27d957ce57420a61d178c86468eb686a17f73 Mon Sep 17 00:00:00 2001 From: Peter Tanner Date: Fri, 15 Nov 2024 05:29:09 +0800 Subject: [PATCH] Fix broken link --- ...20-SC03C2H5OH-Electrochemical-EthanolAlcohol-Sensor-notes.md | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/_posts/2024-10-20-SC03C2H5OH-Electrochemical-EthanolAlcohol-Sensor-notes.md b/_posts/2024-10-20-SC03C2H5OH-Electrochemical-EthanolAlcohol-Sensor-notes.md index fd7af7b..717c950 100644 --- a/_posts/2024-10-20-SC03C2H5OH-Electrochemical-EthanolAlcohol-Sensor-notes.md +++ b/_posts/2024-10-20-SC03C2H5OH-Electrochemical-EthanolAlcohol-Sensor-notes.md @@ -9,7 +9,7 @@ tags: [electrochemical,sensor,electronics,beers,alcohol] # 0-\infty. systems | Most alcohol sensor modules use the MQ3 alcohol sensor (or similar), which operate using a metal oxide semiconductor which changes in resistivity when alcohol is exposed to it. These tend to be terrible. The SC03-C2H5OH is the cheapest electrochemical alcohol sensor I could find online, it uses an electrochemical cell which should be better. -I was able to purchase it in quantities of one on [Aliexpress](item/1005005789802562.html) for around $20 AUD. The package arrived with the sensor and a male-male ribbon cable to connect it to a 2.0 mm picoblade connector (see below for specifications). +I was able to purchase it in quantities of one on [Aliexpress](https://www.aliexpress.com/item/1005005789802562.html) for around $20 AUD. The package arrived with the sensor and a male-male ribbon cable to connect it to a 2.0 mm picoblade connector (see below for specifications). ## Better datasheet