Modern tractors have changed hugely in recent years thanks to the use of electronic components. This evolution has increased agricultural productivity, efficiency and safety, all of which have clear financial benefits. Read on to find out more about some of the most important uses of electronic components in modern tractors.
Since the early days of hunter-gatherers, tools and techniques have always been used to enhance farming. Examples of these include:
The fifth agricultural revolution (Agritech 5.0) that’s currently underway aims to increase yields but in environmentally sustainable ways – this is where an increased use of electronic components comes in.
More information about current developments in agricultural machinery that were showcased at the Agritechnica 2023 trade fair in Germany can be found here.)
The first tractors originated during the late 19th century and were based on steam power. They were used to pull ploughs, which was a big improvement from using horses and oxen. Over time, these tractors were adapted to use other implements, such as cultivators, spreaders, mowers and balers.
Towards the start of the 20th century, the development of the internal combustion engine meant that tractors became more efficient and easier to use. As a result, the “golden years” of tractors during the early and mid-20th century saw sales boom and farming production increase.
Then around the mid-to-late 20th century, technological developments further improved tractors, including innovations in hydraulic systems and power take-offs. This technology massively boosted the power of tractors and allowed them to be used for a variety of tasks.
In more recent times around the 1990s onwards, digital technologies have refined tractor systems even more. GPS systems, in particular, help to optimise farming practices by improving the accuracy of planting, fertilising and irrigation, for example.
In today’s modern world, there’s a drive towards even greater efficiencies but not at a cost to the environment – as in many other industrial sectors, there’s now a clear focus on environmental sustainability. So, how exactly are electronic components being used in modern tractors?
The ECU is a fundamental component of the tractor because it manages and optimises the performance of the engine. This includes monitoring fuel injection, air intake and other critical engine parameters.
As with an everyday family car, the EPS greatly improves manoeuvrability of the vehicle and reduces operator fatigue. It does this by providing electronic assistance to the steering mechanism – anyone who has gone from using EPS to non-EPS will tell you that it’s very hard work!
The HCU controls the hydraulic systems for the tractor’s implements and attachments. For example, it manages the lift, tilt and other hydraulic functions.
The ECH regulates the tractor’s three-point hitch system, allowing for the precise control of implements. This control means that land can be utilised fully and the wastage of crops, fertilisers and so on is kept to a minimum.
This is an electronically controlled throttle for the engine. It allows a very high level of engine control, which helps with fuel efficiency and responsiveness.
But it’s not all about acceleration. This module manages the electronic braking systems by co-ordinating brake-force distribution. Conditions and terrain on farmland are often challenging, to say the least, and so it’s vital that a tractor can stop quickly and safely.
Another refinement in this area is the traction control system. This prevents wheel slippage in difficult conditions by optimising the traction of the vehicle. Without this, there are likely to be many tractors getting stuck in the mud.
This system monitors and manages the tractor’s electrical system, to ensure the efficient use of electrical power. As the electrification of vehicles, including tractors, continues to grow, the optimal management of batteries is only going to become more important.
Of course, it’s important not to forget that a human will be driving the tractor (at least until driverless tractors come fully online!). So, electronic suspension systems play a vital role in making sure that the operator is comfortable by adjusting damping based on the terrain.
Without a good suspension system, a day working in the fields might lead to discomfort for the operator and perhaps even long-term health issues.
As well as the operator’s comfort, their safety is also paramount. Electronic stability control helps to prevent accidents, while roll-over protection systems (ROPS) are there just in case the worst does happen.
Alongside the primary uses of electronic components in tractors listed above, there are also many secondary uses, such as:
Without the electronic components mentioned in this article, a tractor’s operations would be much less productive and more labour-intensive. The continuing demand to increase agricultural production – without harming the environment – as the world’s population grows means that it’s vital to use all of the technology that is available to us.