Claas Lexion
The Claas Lexion is a flagship series of combine harvesters produced by the German agricultural machinery manufacturer Claas since 1996, renowned for setting new standards in performance, efficiency, and adaptability for large-scale grain harvesting.[1] Featuring the innovative APS (Accelerated Pre-Separation) threshing system combined with ROTO PLUS axial separation, the Lexion enables high throughput even in challenging conditions, with models offering engine powers ranging from 461 to 790 horsepower and grain tank capacities up to 18,000 liters.[2][1] Introduced as Claas's entry into a new performance class, the Lexion series originated from the integration of the APS threshing technology—first debuted in the 1990s—with advanced rotor-based separation, allowing for gentler crop handling and reduced grain damage compared to conventional systems.[1] In 1997, Claas formed a joint venture with Caterpillar to produce and market Lexion harvesters in North America, leading to localized manufacturing in Omaha, Nebraska, and adaptations like the yellow-and-black livery for the U.S. market.[3] Over the years, the series has evolved through multiple generations, incorporating telematics in 2005 for remote monitoring and diagnostics, marking a pioneering step in connected agriculture.[4] The current Lexion 8000 and 7000 series (as of 2025), encompassing models such as the 8900, 8800, 8700, 8600, 8500, 7700, and 7600, are powered by MAN and Perkins Stage V-compliant engines delivering precise power management via the DYNAMIC POWER system, which can save up to 10% in fuel consumption by adjusting output to real-time needs.[2][5] In 2025, marking the 30th anniversary, Claas introduced the LEXION 8500 as a new entry-level model in the 8000 series, along with MAN engine upgrades and increased grain tank volumes for select models.[5] The APS SYNFLOW HYBRID threshing unit, with a 755 mm diameter drum and pre-acceleration, feeds into four 445 mm rotors spanning 4,200 mm for separation, supporting cutterbar widths up to 13.8 meters and unloading rates of 180 liters per second.[2] Options like the TERRA TRAC tracked undercarriage enhance traction and soil protection on uneven terrain, while the MONTANA version provides four-wheel drive and up to 30% slope capability for hilly regions.[6] Key innovations include the CEMOS AUTOMATIC system, which uses AI-driven adjustments to optimize threshing, cleaning, and chopping for up to 7% higher output, earning the series the Machine of the Year 2020 award at Agritechnica.[2] The ergonomic cab features the CEBIS touchscreen interface for intuitive control, advanced air conditioning, and 360-degree visibility, with LED lighting packages for extended operation.[2] These harvesters support diverse crops through modular straw management and are built for sustainability, with low-emission engines and efficient grain handling that minimizes losses to under 0.5%.[2] By 2024, the Lexion had contributed significantly to Claas's milestone of producing over 500,000 combine harvesters worldwide.[3]Overview
Introduction and Significance
The Claas Lexion is a flagship series of high-capacity combine harvesters produced by the German agricultural machinery manufacturer Claas since 1995, renowned for its rotor-based threshing system and exceptional grain throughput capabilities.[3][7] The series debuted with the Lexion 480 model at the Agritechnica trade fair in 1995, introducing the innovative Accelerated Pre-Separation (APS) hybrid technology that enabled unprecedented performance levels, including a peak capacity of 40 tonnes of grain per hour, making it the world's most powerful combine harvester at launch.[8][9] The Lexion series has significantly revolutionized large-scale grain harvesting by prioritizing efficiency, reliability, and operator comfort, allowing farmers to process vast areas rapidly while minimizing grain loss and fuel consumption.[3] Over its three decades of production by 2025, the series has achieved notable milestones, including multiple Guinness World Records for harvest yields; for instance, a Lexion 580+TT model harvested 532 tonnes of wheat in eight hours in 2008, underscoring its dominance in high-output operations.[10] With more than 75,000 units built worldwide, the Lexion has solidified Claas's position as a leader in premium combine harvesters, influencing industry standards for rotor technology and automation. In 2025, updates including new engine options and an additional model were introduced for the 2026 harvest season.[5][3] Globally exported to over 140 countries, the Lexion series holds a strong market share in the high-end segment, where it competes directly with rivals such as the John Deere S-Series and Fendt Ideal models through superior throughput and adaptability to diverse crops and terrains.[11] A key aspect of its North American expansion involved a 1997 joint venture with Caterpillar, which rebranded and distributed Lexion combines as CAT Lexion models until the partnership concluded in 2002, enhancing Claas's foothold in that region.[3][12]Core Design Principles
The Claas Lexion series embodies a modular design philosophy that enables adaptability across diverse farming operations, featuring interchangeable headers with working widths up to 13.8 meters and grain tank capacities ranging from 10,500 liters to 18,000 liters to accommodate varying crop volumes and field conditions.[13] This modularity facilitates quick adjustments for different crops without major reconfiguration, enhancing operational flexibility while maintaining structural integrity through standardized mounting systems.[13] At the heart of the Lexion's engineering is a rotor-based threshing and separation system utilizing two counter-rotating rotors, each 445 mm in diameter and 4,200 mm long, which differs from traditional straw walker designs by providing continuous axial flow for more uniform crop processing.[13] The Accelerated Pre-Separation (APS) process, first introduced in 1995, accelerates the crop to speeds of up to 20 m/s in the initial threshing stage, achieving 20–30% greater efficiency in grain separation compared to conventional systems by pre-extracting a significant portion of free grain early in the process.[13][14] Hydraulic drive systems allow for precise variable speed adjustments, with the threshing drum operating between 330 and 930 rpm and rotors optimized for load, further supported by CEMOS AUTOMATIC, an AI-driven system that automatically fine-tunes performance parameters like rotor speed and sieve settings in response to real-time crop and field variations.[13] Standard safety and ergonomic features include a cab offering 360-degree visibility for enhanced situational awareness, noise levels below 80 dB during road travel at 1,600 rpm, and ISOBUS compatibility for seamless integration with modern fleet management and precision agriculture tools.[13]History
Origins and Initial Development
The development of the Claas Lexion series originated in the early 1990s at the company's headquarters in Harsewinkel, Germany, where engineers sought to address the throughput limitations of conventional straw walker combines by incorporating a dual-rotor separation system inspired by rotary combine designs. This innovative approach combined the patented APS (Accelerated Pre-Separation) threshing unit with the ROTO PLUS axial rotor separation technology, enabling higher capacity and better grain quality in demanding conditions. The focus was on creating a machine suited for large-scale farming operations, emphasizing efficiency in high-volume crops like wheat and barley.[15] Prototype testing occurred in the mid-1990s, with intensive field trials validating the hybrid system's performance, achieving initial throughputs of up to 1,378 bushels per hour in wheat during early evaluations. The first public unveiling took place at the Agritechnica trade show on November 12, 1995, where the Lexion 480 was introduced as a flagship model, marking Claas's entry into a new class of high-performance combines. This debut highlighted the machine's advanced engineering, including a Mercedes-Benz OM 401 LA V6 engine delivering approximately 320 horsepower, a 600 mm diameter threshing drum, and a 10,500-liter grain tank for extended operation without frequent unloading. Priced at a premium level to reflect its cutting-edge technology, the Lexion 480 was positioned for professional users rather than smallholders.[3][16][17] Upon its 1995 market launch, the Lexion series gained rapid adoption in Europe and Australia, particularly among large arable farms harvesting wheat and barley, due to its superior throughput and multi-crop versatility. Early demonstrations set performance benchmarks, with the machine achieving record harvesting capacities that underscored its role in shortening harvest windows. However, its high initial cost and technical complexity posed challenges, limiting initial sales to well-capitalized operations capable of justifying the investment through increased productivity. A brief partnership with Caterpillar, established in 1997, later facilitated expanded distribution in North America.[15][18]Key Milestones and Updates
In 1997, CLAAS formed a joint venture with Caterpillar to manufacture and distribute LEXION combine harvesters in North America under the CAT Lexion branding, significantly expanding adoption in the U.S. market through localized production starting with the Omaha facility in 1999.[3][19] The LEXION 500 series was introduced in 2000, offering straw walker variants for broader market appeal. The LEXION 600 series was introduced in 2005 at Agritechnica, featuring expanded compatibility with 12-meter headers and grain tanks up to 12,000 liters to handle higher outputs in demanding crops like wheat and oilseed rape.[3][20] In 2010, the LEXION 700 series debuted with an enhanced hybrid threshing system incorporating larger rotors for improved separation efficiency and throughput.[21] By 2013, all LEXION models achieved Tier 4 emissions compliance using selective catalytic reduction (SCR) technology, which reduces nitrogen oxide (NOx) emissions by approximately 90% while maintaining performance.[22] The 8000 series launched in 2019, with the flagship LEXION 8900 delivering 779 horsepower and throughput exceeding 100 tonnes per hour, setting new benchmarks for large-scale harvesting.[23] In 2024, updates to the 5000–8000 series refined the APS SYNFLOW HYBRID system for optimized crop flow and fuel efficiency across the lineup.[24] For the 2026 model year, CLAAS introduced the LEXION 8500 as an entry-level 8000 series option, equipped all 7000 and 8000 series models with MAN engines for enhanced power and efficiency, and increased grain tank capacity to 18,000 liters on top models like the 8700.[5][23] LEXION harvesters have earned multiple Guinness World Records for performance, including harvesting 1,111 tonnes of maize in eight hours with a LEXION 760 TERRA TRAC in 2018. Marking its 30th anniversary in 2025, the series has surpassed 75,000 units produced globally.[25][3]Technological Features
Threshing and Separation Systems
The Claas Lexion employs a dual-rotor system for grain separation, featuring two counter-rotating rotors each measuring 4,200 mm in length and 445 mm in diameter, which utilize centrifugal force to extract grain from the crop material efficiently.[26] These rotors operate at variable speeds ranging from 450 to 1,250 rpm, allowing adaptation to different crop types and conditions for optimal performance.[26] In the latest models, this configuration supports a throughput capacity of up to 100 tonnes of grain per hour, establishing it as a high-capacity solution for large-scale harvesting.[27] Central to the Lexion's threshing mechanism is the APS (Accelerated Pre-Separation) process, where a 450 mm accelerator drum pre-accelerates the crop to 20 m/s before feeding it into the rotors, initiating threshing and extracting approximately 70% of free grain prior to full separation.[26][28] This front-end design, with a 755 mm threshing drum and 1.55 m² main concave area, enhances overall efficiency by reducing the workload on downstream components.[26] Recent evolutions in the APS SYNFLOW HYBRID system integrate rotary threshing elements with a walker-like concave configuration to promote gentler crop handling, thereby minimizing grain damage and improving straw quality compared to earlier rotary-only designs.[2][29] Introduced as an advancement over the original APS HYBRID from 1995, this system boosts throughput by up to 10% while maintaining fuel efficiency around 1 litre per tonne harvested.[30][26] The ROTO PLUS secondary separation system complements the primary threshing with up to six adjustable rotor concaves (varying by model, with six on larger models such as the 8900-8700 and five on others) and hydraulic flap controls, ensuring thorough grain recovery from residual material.[26] For straw management, the integrated chopper features variable hydraulic speed adjustment and options for 64 or 108 knives, enabling configurations for either mulching or swathing while optimizing residue distribution.[26] Maintenance is facilitated by features such as central lubrication, easy-access panels for rotor inspection, and the AUTO CLEANING system, which dynamically adjusts sieve openings and fan speeds to sustain performance.[26][23] The JET STREAM cleaning process further supports high efficiency, achieving grain losses as low as 0.4% in optimized conditions, which corresponds to exceptional purity levels.[26][31] These systems integrate seamlessly with the Lexion's powertrain to deliver consistent power without compromising crop processing mechanics.[23]Engines, Powertrain, and Operator Cabin
The engines powering the Claas Lexion combine harvesters have progressed significantly since the model's introduction, transitioning from Mercedes-Benz units to high-output MAN engines for improved performance and efficiency. Initial models like the 1995 Lexion 480 utilized Mercedes-Benz diesel engines, while the 2019 Lexion 8900 introduced the 16.2-liter MAN D42 six-cylinder engine rated at 790 horsepower (581 kW). In 2025, the entire Lexion 7000 and 8000 series adopted exclusive MAN engines across all models, including the new entry-level Lexion 8500 with a 12.4-liter MAN D26 engine delivering up to 549 horsepower (408 kW), the 8600 at 598 horsepower (443 kW), the 8700 at 646 horsepower (476 kW), and the 8800 at 700 horsepower (515 kW), resulting in approximately 5% greater fuel efficiency compared to prior configurations.[5][32][33][34] The powertrain features a two-speed hydrostatic transmission enabling smooth operation from 0 to 40 km/h, facilitating efficient field work and rapid road transfers. Integrated DYNAMIC POWER management automatically modulates engine output based on load demands, delivering power boosts during peak operations such as unloading while achieving up to 10% fuel savings under normal conditions. Typical fuel consumption stands at about 1 liter per tonne of throughput in top models at maximum capacity, supporting sustained productivity.[23][26][35][36] Emissions compliance has been a key focus, with Lexion models meeting Tier 4 Final and Stage V standards since 2014 through advanced aftertreatment systems including exhaust gas recirculation (EGR), diesel particulate filters (DPF), and selective catalytic reduction (SCR) integrated into the MAN and Mercedes-Benz engines. The 2025 engine updates further optimize SCR functionality, contributing to overall reduced urea consumption as part of enhanced efficiency measures.[35][37] The operator cabin in premium Luxus configurations provides a spacious, ergonomic environment designed for extended harvesting shifts, featuring an air-suspension seat for reduced vibration and a 360-degree camera system for enhanced visibility around the machine. CEMOS AI-driven assistance enables automatic adjustments to parameters like sieve settings based on real-time yield maps and crop conditions, optimizing performance without manual intervention.[23][6] Key operator aids include the CEMOS AUTOMATIC system, which offers self-learning automation for threshing, cleaning, and separation processes, continuously monitoring and adjusting to minimize grain losses and maximize throughput. For instance, CEMOS AUTO THRESHING adapts concave clearance and fan speed in real time to maintain optimal grain quality while reducing losses compared to manual settings. The 2025 updates incorporate improved connectivity options. This power delivery directly addresses the variable demands of threshing and separation systems.[38][31][5]Model Generations
Early Generations (400–500 Series)
The Claas Lexion 400 series, introduced in 1995, represented the initial entry into the high-capacity combine harvester market with models including the 460 and 480. These machines were powered by Mercedes-Benz engines rated at 300 to 400 horsepower. They supported headers with cutting widths of 9 to 12 meters and featured grain tanks holding 9,000 to 10,500 liters. Throughput capacities reached 40 to 50 tonnes per hour, enabling efficient large-scale operations. The series utilized a 600 mm threshing drum and two separation rotors as part of the foundational Accelerated Pre-Separation (APS) system, paired with a basic hydrostatic drive. The Lexion 500 series, produced from 2003 to 2008, expanded the lineup with models such as the 500 to 570, incorporating upgrades like enhanced straw walker separation for improved grain quality and throughput up to 60 tonnes per hour. Optional integrated straw choppers allowed for versatile residue management, while the machines weighed around 16 tonnes. Both series shared a fuel tank capacity of 1,150 liters and a grain unloading rate of 90 liters per second, facilitating extended field runs. These early Lexion models found primary application in harvesting wheat and canola across Europe and Australia, where their robust performance suited diverse field conditions. However, they predated Tier 4 emissions standards and offered grain tank sizes smaller than those in later generations, limiting continuous operation in ultra-high-yield scenarios. Overall production of the 400 and 500 series contributed to the early success of the Lexion line, helping establish it as a premium benchmark for combine harvester innovation and reliability.Mid Generations (600–700 Series)
The Lexion 600 series, introduced in 2005, marked a step forward in mid-sized combine capacity, with key models including the 650 and 670 offering engine powers ranging from 360 to 408 horsepower via Mercedes-Benz or Perkins units. These machines supported headers up to 12 meters wide and grain tanks of up to 12,000 liters, enabling throughputs of 70 to 80 tonnes per hour while maintaining weights between 17 and 18 tonnes.[39][40][41] Building on this foundation, the Lexion 700 series launched in 2010 and continued production through 2019, encompassing models from the 750 to the 770 with maximum outputs up to 576 horsepower from Caterpillar or Mercedes-Benz engines. Starting in 2013, the series integrated Tier 4 emissions standards to meet evolving regulations. Enhanced specifications included 13-meter headers, 12,500 to 13,500-liter grain tanks, and unloading rates of 130 liters per second, allowing for greater daily harvest volumes in demanding conditions.[42][43][44] Key innovations in these mid generations included refined ROTO Plus axial separation rotors in the 700 series for improved grain-on-grain threshing and reduced crop residue buildup, alongside dynamic cooling systems that adjusted fan speeds based on engine load to optimize airflow and dust extraction. These features supported fuel efficiencies around 220 g/kWh and extended service intervals to 600 hours, enhancing operational reliability across extended campaigns. The series briefly referenced emissions technologies like selective catalytic reduction, integrated into the powertrain for compliance without detailed elaboration here.[44][45][2] Performance highlights included record-breaking harvests, such as the 2010 achievement of over 1,300 tonnes of corn in approximately 10 hours with a Lexion 760 Terra Trac, equating to sustained rates around 80 tonnes per hour in high-yield scenarios. The machines proved versatile for diverse crops, including rice, through adaptable concave segments and threshing settings that minimized grain damage in wet or sticky conditions.[46][2] Production expanded significantly during this era, particularly to the United States following the 2010 termination of the long-standing Claas-Caterpillar distribution partnership, with assembly shifting to the new Omaha facility to serve North American markets more directly.[47][48]Current Generations (5000–8000 Series)
The current generations of the Claas Lexion series, encompassing the 5000 through 8000 models introduced from 2019 onward, represent the pinnacle of high-capacity harvesting technology, integrating advanced automation, enhanced powertrains, and optimized crop flow for demanding global operations in cereals and corn. These machines emphasize AI-driven adjustments via CEMOS systems for real-time performance tuning, achieving up to 98% grain recovery rates and class-leading minimal losses through precise sensor calibration and the JET STREAM cleaning system. Designed for mid- to large-scale farms, they deliver throughput capacities from 80 to 120 tonnes per hour, with grain tanks scaled to match extended field runs and unloading rates up to 180 liters per second for rapid transfer.[49][23] The 5000 series, launched in 2020 as entry-level straw walker models (5300 to 5500), targets mid-sized operations with Mercedes-Benz engines delivering 327 to 378 horsepower, paired with header widths of 10 to 12 meters for versatile cereal and corn harvesting. Grain tank capacities reach 12,500 liters, supporting throughputs of 80 to 100 tonnes per hour, while the APS SYNFLOW WALKER system ensures gentle straw handling and high efficiency on varied terrains, including MONTANA configurations for sloped fields up to 18% lateral tilt. These models weigh approximately 16 to 18 tonnes and feature hydrostatic drives up to 40 km/h, prioritizing fuel savings of up to 10% via DYNAMIC POWER engine management.[49][2] Building on this foundation, the 6000 and 7000 series (models 6100 to 6500 for 6000 straw walkers and 7600 to 7800 for 7000 hybrids, from 2020 with 2025 refinements) offer mid-to-high capacity hybrid and straw walker options with 413 to 571 horsepower from MAN or Mercedes-Benz engines, accommodating headers up to 13 meters and grain tanks of 13,500 to 15,000 liters. The 2025 updates include engine enhancements for the 6800 and 7500 models, boosting output and efficiency while standardizing MAN powertrains across the 7000 lineup for reduced emissions and improved torque. Unloading speeds hit 140 liters per second, enabling sustained throughputs in dense crops, with TERRA TRAC variants minimizing soil compaction on soft ground; these machines excel in global cereal applications, delivering lowest-in-class grain losses through calibrated sensors and self-optimizing CEMOS AUTOMATIC.[49][5][23] At the flagship level, the 8000 series (8500 to 8900, evolving since 2019 with major 2025 expansions) provides ultimate performance via MAN engines: D26 for the new 8500 at 549 horsepower and D42 for 8600-8900 at 625 to 790 horsepower, supporting headers up to 13.8 meters and grain tanks increased to 18,000 liters for non-stop operations exceeding 100 to 120 tonnes per hour. Weighing over 20 tonnes, these rotary models incorporate four rotors with concaves at speeds up to 1,000 rpm. Cab enhancements include Apple CarPlay integration, revised lighting, and ergonomic controls for extended shifts, while record throughputs—such as over 1,100 tonnes in eight hours demonstrated in controlled corn trials—underscore their efficiency in high-yield scenarios with 98% recovery and negligible losses. The 2025 updates feature larger grain tanks across the series, full MAN engine adoption, and the addition of the 8500 as an accessible entry to the 8000 line.[23][5][33]| Series | Key Models | Engine Power (hp) | Header Width (m) | Grain Tank (L) | Throughput (t/h) | Weight (tonnes) |
|---|---|---|---|---|---|---|
| 5000 | 5300–5500 | 327–378 (Mercedes) | 10–12 | 12,500 | 80–100 | 16–18 |
| 6000/7000 | 6100–6500 / 7600–7800 | 413–571 (MAN/Mercedes) | Up to 13 | 13,500–15,000 | 90–110 | 18–20 |
| 8000 | 8500–8900 | 549 (D26) / 625–790 (D42) (MAN) | Up to 13.8 | Up to 18,000 | 100–120 | 20+ |