- 12-row, 36-, 38-, or 40-in. spacing
- No lift-assist wheels for improved maneuverability
- Hydraulic wing locks for faster field-to-field transport
- 35-bushel CCS tank
View Product Brochure
The 1725C stack-fold design provides narrow transport capability for these integral, large-frame planters. 1725C Stack-Fold Planters have the ability to operate in both rigid-frame and flex-frame configurations. The 1725C utilizes a three-section frame that can flex up to 8 degrees up and 8 degrees down. 1725C is not offered with markers.
The 1725C Stack-Fold Integral Planter is available in the following configurations: 12Row36, 12Row38, or 12Row40.
The 1725C is only available without lift-assist wheels. This allows for increased maneuverability around tighter field conditions and bedded crops.
The vacuum is run through the planter frame rather than the black conduit on top of the frame. This cleaner frame design provides improved visibility when seated in the cab.
Optional wing downforce/gull wing is available on the 1725C. When traveling at speeds above 8.05 km/h (5 mph), the wings may become lighter, sacrificing ground contact and consistent depth. Hydraulic cylinders have been added to maintain force on the outer wings to keep desired depth. Operators also have the ability to pin the outer wings rigid with or without the wing downforce/gull wing option.
The same cylinders are used to enable the gull-wing feature on the 1725C. The gull wing flexes the outer wing up to 8 degrees upward, allowing for more vertical wing clearance.
An automatic hydraulic-wing locking feature is available on the 1725C. Once the operator engages the frame-fold selective control valve (SCV), the hydraulics release the locking mechanism and the planter starts folding. This reduces trips up and down the tractor and provides for a much quicker fold/unfold process.
Active pneumatic downforce is in base on the 1725C. This provides the proven downforce solution for growers to maintain consistent depths even at speeds up to 16.1 km/h (10 mph).
CCS seed delivery adds productivity through increased seed capacity, bulk-fill capability, and easy cleanout.
The single tank on the 1725C has a capacity of 1233.4 L (35 bu). CCS tanks are manufactured using a rotomolded, polyethylene design to ensure maximum durability. The translucent tank allows for easy viewing of seed in the tanks.
The following crops can be planted with CCS: corn, sweet corn, popcorn, cotton, sunflowers, soybeans, and sorghum (milo).
Filling the tank is convenient due to a central filling location. The ladder provides access to the filling platform. The tank has an adjustable bin-level sensor to alert the operator when it is time to fill.
For those who work into the night, a standard fill light package is available on machines equipped with CCS. This option includes one light conveniently mounted on the railing of the machine. The lights are turned on and off with their own switch located at the bottom of the ladder.
Seed delivery process
CCS is about reducing the time spent filling the planter with seed while maximizing the time spent planting. CCS for planters is a form of seed handling and delivery. The row-units perform the final task of seed metering and placement.
The CCS seed delivery process relies on a hydraulically driven fan to move seed from the CCS tank to the row-units. When the planter is lowered, hydraulic flow is sent to the seed delivery fan. A flow control valve and gauge, located near the tank, allows for the proper tank pressure setting based on seed type.
Air from the fan pressurizes the CCS tanks and delivers seed to the seed hoppers. Airflow enters the seed tank through a nozzle in the manifold which pressurizes the tank. The air then picks up seed and moves out the other end of the nozzle into the seed delivery hoses. These hoses route the seed toward the hopper. A small amount of seed is traveling in the delivery hoses only when needed.
The hopper fills with seed until the delivery hose (discharge elbow) is covered. Once the opening is restricted, seed flow through the hose stops. Air flowing to the row-unit travels into the hopper and is vented, which is the source of air for the vacuum system. This provides a much cleaner air source than previous meter designs. As the seed is picked up by the meter and planted, the seed pool shrinks until the end of the delivery hose is uncovered. At that time, the airflow and seed delivery resume and the seed pool in the hopper is replenished.
CCS seed cleanout
Seed cleanout could not be easier with a CCS planter. When the operator is finished planting, any remaining seed can simply be removed via access doors at the bottom of the CCS tank.
Because seed is only traveling through the CCS delivery hoses when required by the meter, there is not much left to clean.
Next, CCS seed delivery hoses are purged with air from the CCS fan, and the excess seed is pushed to the individual meters.
Lastly, the vacuum meter door is opened, and seed is removed with the supplied catch pan.
Small-seed CCS components
The CCS seed delivery system increases planting productivity across the seven approved crops listed above. While highly effective when delivering seed from the CCS tanks to the vacuum meters, small or light seeds (sorghum and small cotton) will require two additional components to aid in proper seed delivery.
Manifold nozzle covers (clips) should be installed to ensure seed is adequately picked up into the air stream for delivery to the row-unit. Mini-hopper discharge elbows should also be changed from the standard elbow (holes) to the small-seed elbow (slotted openings) when planting sorghum (milo) and small cotton.
The MaxEmerge 5e is designed to improve population accuracy, spacing, and avoid wasting inputs for maximizing yield. The "e" in MaxEmerge 5e stands for electric drive. It is driven by one electric motor per meter with a small controller. This does away with the shafts and drivelines of a typical mechanical drive. That means more reliability, less maintenance, and easier access to row-unit components. For producers who want uniform seed spacing, the MaxEmerge 5e is a great option.
One of the biggest advantages of the MaxEmerge 5e is how it improves population accuracy by compensating for curves on the outer rows of the planter. The MaxEmerge 5e row-unit eliminates shafts and drivelines from the planter, allowing better access to row-unit components and decreased planter maintenance. Additionally, the MaxEmerge 5e allows corn and soybean growers to achieve up to a 20 percent improvement in population accuracy on the outer rows of a 24-row planter while planting on curves utilizing curve compensation. MaxEmerge 5e utilizes the same crops as MaxEmerge 5.
While the MaxEmerge 5e uses a seed tube, it offers some of the same important advantages as ExactEmerge row units. The MaxEmerge 5e also improves reaction to population changes in the field when conditions dictate a higher or lower population, enabling producers to more accurately plant to the variable-rate prescription that maximizes profit potential. High-performance vacuum automation automatically maintains the target vacuum setting throughout the day with less time monitoring and making adjustments. It uses the SeedStar™ 4HP system and is compatible with Connect Mobile monitoring for near real-time, row-by-row planting performance. Depending on planter model, the MaxEmerge 5e package unlocks additional options like easy adjust row cleaners, Individual Row Hydraulic Downforce (IRHD), mobile row-unit runoff, and pneumatic closing wheels.
The MaxEmerge 5e delivery system options include mini-hoppers with Central Commodity System (CCS™), 56.4-L (1.6-bu) hoppers, and 105.7-L (3-bu) hoppers.
Terraces or waterways are two of many field obstacles that make planting on a curve challenging. When planters utilize drive shafts, they are not able to control each individual row-unit; as a result, planting on a curve presents an issue of maintaining 100 percent population. Since the inside rows are moving slower than the outside rows, the inside rows will be over populating while the outside rows are under populating.
With ExactEmerge™ planters and equipped MaxEmerge™ 5e planters, the curve compensation feature allows each row to receive an individual signal based on the speed at which the row-unit is moving, maintaining the correct population across the width of the planter. Without curve compensation, there could be as much as a 24 percent drop in population accuracy, which is equivalent to 8,600 seeds per acre when planting at 36,000 seeds per acre. Curve compensation measures acceleration within the main planter controller and utilizes speed inputs to ensure each row has the desired population accuracy.
Easy Adjust row cleaner and coulter combo provides a pneumatic row tillage solution that is controlled from the seat of the tractor.
Every decision to make an adjustment during spring planting reduces the acres planted per day and can increase or decrease profitability. An adjustment that can be overlooked is row cleaners due to planter size, difficulty to make the adjustment, and varying conditions across fields and time.
With the Easy Adjust row cleaners on ExactEmerge™ planters, operators now have a pneumatic solution to make on-the-go adjustments that is controlled directly from the seat of the cab. They can be raised from the cab as needed with the push of a button for wet areas, waterways, or end rows. For growers using SeedStar 3 HP, the row cleaners are completely integrated into the John Deere GreenStar 3 2630 Display as well as the Gen 4 4600 CommandCenter display or 4640 Universal Display. For growers using SeedStar 4HP, a 4600 CommandCenter display or 4640 Universal Display is required.
The Easy Adjust row cleaners have the capability to save three presets for varying ground engagement based on field conditions. The system is controlled in three sections: at each wing as well as the center (frame or wheel) track rows. The pneumatic lines use air from the active pneumatic downforce compressor, requiring no additional compressor to be installed on the planter. The Easy Adjust row cleaners utilize down and up force air bags. The adjustable air pressure setting for each bag allows the operator to set the ride of the row cleaner depending on the field conditions and the desired results. Making these on-the-go adjustments from tractor cab increases productivity and performance during planting.
For Easy Adjust row cleaner performance upgrade kit options, see the ordering guide.
The row cleaner-only option utilizes parallel linkage to provide the floating action growers require in their fields. Parallel linkage allows for the unit to float up and down in the situation of hills or hard objects. The cleaner and coulter combo does not have parallel linkage, however, the row cleaners have floating rings installed to help provide the same benefits.
The row cleaners utilize the field-proven SharkTooth® design. Row cleaners play a major role in maximizing yield toward uniform emergence, reducing row-unit bounce, and maintaining proper depth. The Easy Adjust row cleaners provide growers with quick and stress-free solutions to customizing the planter in variable field conditions. They are available on most ExactEmerge and MaxEmerge 5e equipped planters.
SharkTooth is a trademark of Yetter Manufacturing Incorporated.
It is very challenging to get the crop planted during the optimum planting window or as close to the optimum planting day as possible. Rate-of-yield loss accelerates greatly after the optimum window has passed. This is especially true in the northern U.S. and Canada. ExactEmerge maintains accurate speed placement at higher speeds; growers can avoid missing that peak planting time, thereby helping to get the highest crop yields.
With the BrushBelt trench delivery system, the spacing in the trench does not change from even to uneven terrain. This can be a problem with a traditional seed tubes. Seed bounce and ricochet may occur as slopes increases, ultimately decreasing seed spacing performance.
The design of the BrushBelt system provides the best solution for the lowest release of seed to the bottom of the trench. The use of a brush provides the meter with an infinite amount of placement opportunities for each seed. This is what gives producers the confidence that every seed will have the desired spacing that a seed tube cannot provide.
When the brush comes around the pulley, it expands and allows the seed to be transferred from the bowl to the brush very easily. The brush then carries the seed down toward the trench, ensuring that there is no movement as it moves down the length of the cartridge.
Once the brush reaches the lower pulley, the BrushBelt system expands again to loosen the grip on the seed, and the centrifugal force releases the seed. Another advantage with the BrushBelt system and cartridge at all speeds up to 10 mph is the ability to match the seed rearward trajectory to the forward ground speed of the planter. This provides a dead drop of the seed with no bounce and no roll at the bottom of the trench.
John Deere’s ExactEmerge cartridge is self-cleaning. When an operator uses seed treatments or is forced to plant in less than ideal soil conditions, the design of the trench delivery system sheds buildup from the BrushBelt. A brush conditioner is located at the bottom of the cartridge to remove remaining residue and prevent the bristles from sticking together.
Another advantage over a seed tube is that the BrushBelt system also acts as a cleaner to the seed sensor compared to a seed tube.
On all ExactEmerge row-units, each cartridge will be equipped with sensors. As the seeds are being delivered through the BrushBelt™ delivery system controls, they pass the reflective seed sensor. The delivery system slides every seed past the seed sensor to read and send the signal to the controller. The seed sensor and design is able to provide sensor performance at higher seeds per second with no population adjustment as needed with seed tube sensors. This seed sensor data is actual row-unit performance data. In comparison, seed tube sensors add 10 percent population in soybean planting to adjust for the seeds missed due to placement within the seed tube. The BrushBelt system holds each seed in place until released in the trench, allowing the seed sensor a more accurate read.
The BrushBelt system requires no maintenance and has a wear life designed to match the wear life of the other wear components. Since operations vary, as do soils and field content, it is recommended to replace the BrushBelt after noticeable wear or decreased performance.
Changing the belt is easy. One latch removes the meter over the trench delivery system. Grab the cartridge by the grip and pull toward the body, releasing it from the electric motor fitting. Lift the trench delivery system up and remove the sensor wiring harness to completely pull the cartridge out of the row-unit.
There are two plastic covers that snap off to uncover the belt; remove the covers and then twist the circular spring-tensioner dial with the yellow arrow on it to release the tension on the springs. Once tension has been removed, pull the belt out. It is also recommended to change the stainless-steel wear strip at this time as well, which also slides right out of place without the use of tools.
NOTE: It is recommended to use a talc/graphite mixture with ExactEmerge. Best results have been 80 percent talc and 20 percent graphite. For certain regions and territories, talc and talc/graphite mixes are restricted from use; in this case, use a wax-based fluency agent.
Two 56-V brushless electric motors provide ExactEmerge the upper hand over any other row-unit on the market. One motor controls the high-performance meter and the other powers the BrushBelt™ delivery system. Both feature a closed loop system ensuring they operate at the correct rpm.
The motor is controlled at a rate of 200 times per second and a decision is made every 5 milliseconds. The controller also keeps each motor operating at independent speeds of each other. The meter speed is determined by a combination of ground speed and desired population rate while the BrushBelt speed stays consistent with the forward ground speed of the planter in order to place the seed at the bottom of trench.
Industry-proven 56-V brushless motors give confidence to the operator that the row-unit will perform in any condition. The advantage of 56-V over 24-V electric motors is a lower amperage draw.
Brushless motors are maintenance free and give the producer the most optimal solution to achieve the highest performance and the lowest amount of work to the planter.
Manage seed output, reduce yield drag, and improve harvest capabilities are features built in to every ExactEmerge row-unit with electric motor shutoffs.
The electric drive version of RowCommand row-unit has the potential to get 2 to 8 percent reduction in seed usage from being able to control the meter and BrushBelt rather than a clutch disengaging and some seeds still falling down the seed tube.
The first day of planting season can be as productive as the last with mobile row-unit runoff. The mobile row-unit runoff activation on the planter main controller (PMC) allows operators to make adjustments to maximize row-unit performance from a mobile device at the rear of the planter for both preseason and in-season use - all enabled through the EquipmentPlus app.
Mobile row-unit runoff allows growers to perform test-stand functions from a mobile device connected to the planter.
The row runoff test provides complete diagnostic checks both preseason and in season. With the row-unit runoff test, the operator can make adjustments from the mobile device, including vacuum pressure, to determine the optimum meter and vacuum settings. This app functionality will help avoid making trips to the cab while validating meter performance.
During preseason planter inspections and set up, utilize the meter performance test to validate meter accuracy, similar to a test stand without leaving the farm. Test all systems on the planter, not just the meter, providing confidence that all planter systems are ready to plant. Reports are generated from the test providing information the operator can save and send for future reference.
Before heading to the field, the operator will benefit from knowing the best row-unit and vacuum settings for each variety selected to plant that spring.
Watch this video to see mobile row-unit runoff in action.
Mobile row-unit runoff will work with any model year 2015 or newer ExactEmerge™ or MaxEmerge™ 5e equipped planter. Mobile row-unit runoff can be added with attachment AA93169.
For model year 2018 and newer ExactEmerge planters, mobile row-unit runoff is included in base equipment. For model year 2020 and newer MaxEmerge 5e planters, mobile row-unit runoff is included in base equipment. For planters not equipped from the factory, mobile row-unit runoff can be added with attachment AA93169. A mobile row-unit runoff and Easy Fold package can be added with attachment AA97849 (only available with 1775NT and 1795 Planters with a 2-point hitch and model year 2019 and newer DB Planters with Gen 4 based frame folding).
NOTE: Mobile runoff utilizes the EquipmentPlus app available on select iPad® tablets, iPhone® smartphones, and Android™ devices.
Mobile row-unit runoff and Easy Fold aftermarket for field conversion kits
The below software bundles include the functionality explained above for machines not ordered with the feature from the factory. Compatible machines include all the necessary sensors and harnesses needed to make the feature function. The attachment part is software only. Follow the mobile runoff ordering and software push guide below for ordering and installation.
iPad and iPhone are trademarks of Apple Inc. Android is a trademark of Google LLC.
Have you wanted to view more than one planter chart at once? SeedStar 4HP gives you multiple views and configurations in one simple overview page to fit your preferences. You can complete the simplified setup from the Work Setup page instead of having multiple applications to open.
SeedStar 4HP is designed to optimize the in-cab monitoring experience exclusively on the Gen 4 4600 CommandCenter™ display or 4640 Universal Display for growers with ExactEmerge™ planters and MaxEmerge™ 5e planters. With SeedStar 4HP, operators will easily see key planter information with customizable run pages, zoom functionality, and simultaneous graph and performance measurements. SeedStar 4HP is included in base on all model year 2018 ExactEmerge and MaxEmerge 5e planters.
- View multiple planters' at-a-glance bar charts simultaneously
- Three default planter run pages show key planter functions in easy-to-view layouts
- Highly configurable run pages allow SeedStar modules to be customizable
- Zoom feature allows quick row-by-row detailed information
- View dual bar graphs to see multiple planter details at one time
- SeedStar application to make adjustments to planter functions
- Simplified setup through the work set-up page
- Advanced rates allow up to six different rates across 48 rows
- The SeedStar 4HP monitoring system requires the Gen 4 4600 CommandCenter or 4640 Universal Display. These displays allow the operator to benefit from the updated interface, enhanced processing speeds, and easy setup (learn more here).
SeedStar 3 HP conversion to SeedStar 4HP with mobile row-unit runoff aftermarket for field conversion kits
Growers who are currently running model year 2017 planters, model year 2017 and newer performance upgrade kits, or model year 2017 and newer custom-built planters with the SeedStar 3 HP monitoring system can upgrade to the SeedStar 4HP monitoring system with mobile row-unit runoff. The attachment part, AA100382, is software only. The Gen 4 display software version will need to be 19-1 or newer and will require planter apps. Follow the mobile runoff ordering and software push guide below for ordering and installation. Retrofitted planters and custom-built planters will also require the John Deere Connect Mobile kit, 0048PC, from the Precision Ag Technology Price Pages and wiring harness AA83662 to enable the mobile row-unit runoff feature. Please reference Parts Advisor and CCMS Solution 105181 for model-specific mounting brackets. SeedStar 4HP requires the Gen 4 4600 CommandCenter v2 display or 4640 Universal Display.
Default planter run pages
Three default run pages show key planter functions in different views to give fast and easy access to important planter information.
Custom run pages
There are customizable run pages that allow the operator to build pages that fit their operation with different modules, like the example shown above.
The zoom feature allows the operator to touch a section or row of the planter and get detailed information quickly.
Dual bar graphs
Dual bar graphs allow operators to view multiple planter details at one time.
SeedStar application page
In the SeedStar application, many adjustments can be made, including manually activating section control. SeedStar 4HP allows up to 48 individual row sections. There are several setup features such as crop, seed disk, number of rows being planted, population alarms, and limits. Seed rates can be modified, electric power generation (EPG) can be turned on or off, vacuum can be adjusted, and the fill and purge functions can be used from the SeedStar application. Frame control, as well as diagnostics and calibrations, can be accessed at the bottom of the screen.
Settings Manager in SeedStar 4HP
Reduce set-up time between changing crops or field conditions by recalling saved settings used previously with Settings Manager, included with every SeedStar 4HP system. This feature allows saving and recalling planter and tractor settings for optimum performance in different conditions.
Settings Manager can be used to save all the adjustment and inputs associated to a particular crop or condition. An example would be to store all population rates, downforce pressure, row cleaner adjustments, and closing wheel settings for planting corn and storing a separate, unique set of adjustments for soybeans. In addition, Settings Manager stores tractor settings such as selective control valve (SCV) flow and detents, infinitely variable transmission (IVT™) settings, eco modes, and more.
For additional information on feature functionality on the Gen 4 Display, visit the links below:
YouTube is a trademark of Google LLC.
Custom rates in SeedStar 4HP
Custom rates allow for individual row population control and row-by-row documentation where up to six different rates can be assigned across an up to 48-row planter. This allows growers interested in planting seed corn with ExactEmerge or MaxEmerge 5e the capability to assign specific populations to male and female rows for planting. This feature can also be used to create tram lines or other applications where custom rates by row are needed.
NOTE: Individual rates are tied to varieties, so each individual rate needs a unique variety name.
NOTE: Advanced rates are not compatible with prescriptions or they cannot be run at the same time.
|SeedStar 4HP compatibility|
All models ordered with ExactEmerge or MaxEmerge 5e row-units
NOTE: Performance upgrade kits are equipped with SeedStar 3HP only but can be upgraded by purchasing part number AA100382.
Gen 4 4600 CommandCenter equipped with Version 2 Processor or 4640 Universal Display
Dual-display mode is compatible with mid model year 2019 planter software.
|John Deere Active Implement Guidance™||Compatible with SeedStar 4HP on Gen 4 displays with VT mode and required activations and subscriptions|
|AutoTrac™ Implement Guidance||SeedStar 4HP is compatible with ATTA and ATIG; not compatible with >48 row electric drive planters.|
|AutoTrac Turn Automation||SeedStar 4HP is compatible with ATTA and ATIG; not compatible with >48 row electric drive planters.|
When you buy John Deere equipment, you expect reliability. You also know that problems can happen, and a product is only as good as the support behind it. That’s why John Deere equipment is prepared with technology that senses potential issues and can alert you and your dealer promptly—in the cab or anywhere you are.
John Deere Connected Support is a revolutionary change to support that leverages technology and the connectivity of JDLink™ telematics to prevent downtime and resolve problems faster. These tools decrease downtime by an average of 20 percent, enabling faster responses to unexpected problems and reducing technician trips to your machine. For some issues, unplanned downtime can even be prevented altogether through prediction of the issue.
With your permission, John Deere Connected Support:
- Keeps you running by monitoring machine health and promptly alerting you and your dealer of issues
- Saves time by remotely viewing in-cab displays, reducing trips to the machine
- Reduces or even eliminates technician trips to a machine through remote diagnostic and remote software reprogramming capabilities
- Connects experts with the information needed to respond to downtime faster and prevent it altogether
With more than a decade of experience leveraging connectivity to solve problems, no one else has the experience, tools, and knowledge to keep you running as John Deere and your John Deere dealer can. Connected Support is an in-base feature on all John Deere products with factory- or field-installed JDLink.
Compare the specifications of up to 4 models
|Key Specs|| 1725c-planter|
|Number of rows||12|
|Row spacing||12 Row: 91.4 or 96.5 cm|
36 or 38 in.
12 Row: 96.5 or 101.6 cm
38 or 40 in.
|Frame - Fold configuration||Stack-folding|
|Frame - Flexibility||Up: 10 degree (angle)|
Down: 7 degree (angle)
|Row unit seed hoppers|
|Rows and Row Spacing|
|Number of rows||12|
|Row spacing||12 Row: 91.4 or 96.5 cm|
36 or 38 in.
12 Row: 96.5 or 101.6 cm
38 or 40 in.
|Frame tube size|
|Fold-and-go from tractor cab|
|Flexibility||Up: 10 degree (angle)|
Down: 7 degree (angle)
|Number of cylinders|
|Base||12.5L-15SL 20 ply implement: 303 kPa|
3.0 bar (44 psi)
7.60-15 8 ply implement: 359 kPa
3.6 bar (52 psi)
7.6-15 6 ply - traction: 276 kPa
2.8 bar (40 psi)
|Type||ExactEmerge™ row units|
or MaxEmerge™ 5e row units
|Opener||Tru-Vee Double Disk|
|Row unit seed hoppers|
|Row unit down force|
|Scrapers, opener blades|
|Seed tube sensors|
|Radial bean meter|
|Central Commodity System||Seed capacity|
|Base||56 V electric drive|
|Number of drive wheels|
|Drive wheel disconnect|
|Shear bolt protection|
|Less marker option|
|Rubber tire closing system|
|Cast iron closing system|
|Herbicide and Insecticide|
|Insecticide only hopper|
|Herbicide only hopper|
|Insecticide and herbicide hopper|
|Liquid Insecticide System|
|Seed Monitor System|
|Base||SeedStar™ electronic system|
|.63-in. fluted blade (25 flutes)|
|.7-in. fluted blade (13 flutes)|
|1-in. fluted blade (8 flutes)|
|Row tillage support hanger|
|Cons. furrower w/ leading cutout blade|
|V-wing bed sweeps|
|Row cleaner - unit-mounted coulter|
|Row cleaner - unit-mounted DD fert. opener|
|Onboard / towed / tractor tanks|
|Fertilizer opener type|
|Flow divider distribution system|
|Pressure manifold distribution system|
|Transport width (with markers)|
|Transport width (without markers)||12 Row: 91.5 cm (36 in.): 6.7 m|
12 Row 96.5 cm (38 in.): 7.7 m
12 Row 101.6 cm (40 in.): 7.1 m
|Transport height||12 Row: 91.5 cm (36 in.): 4.1 m|
12 Row 96.5 cm (38 in.): 4.2 m
12 Row 101.6 cm (40 in.): 4.2 m
|Transport underframe clearance||4 m|
On 8000 Series tractors with 18.4-42 tires
|Field operation width|
|Field operation length|
|Ag Management Solutions|
|Recommended tractor horsepower||Vaccum system hydraulic drive: horsepower required: 4.5-10.4 kW|
Minimum tractor size: 201 kW
Tractor recommendation: Currrent model (minimum) 8430 MFWD with dual rear tires and 20 front weights.
|Recommended tractor hydraulics||Hydraulic oil required to operate the planter: 227 L/min|
Hydraulic system standby pressure: 15,513 kPa
155 bar (2250 psi)
Hydraulic system working pressure: 20,684 kPa
207 bar (3000 psi)
Hydraulic system burst pressure: 82,737 kPa
827 bar (12,000 psi)