Bent Axis Variable Displ. Motors Series 51 and 51-1

Transcription

1 Technical Information ent xis Variable Displ. Motors Series 51 and 51-1 powersolutions.danfoss.com

2 Revision history Table of revisions Date Changed Rev October 2017 Modified theor. corner power ratings and updated to Engineering Tomorrow 0401 March 2015 Major update. Corrected DIT CMS structure, layout, colors and all tables. C Jan 2014 Converted to Danfoss layout - DIT CMS Jun 2005 First version 2 Danfoss October L0440 C en-US0401

3 Contents Series 51 general information Sectional view of Series 51, proportional control...7 Sectional view of Series 51-1, two-position control...8 Pictorial diagram...9 System circuit diagram...9 Series 51/51-1 name plates Technical specifications General specifications Specific data...11 Fluid specifications...12 Determination of nominal motor size General technical specifications Case pressure...14 Speed range...14 Pressure limits Loop flushing...16 Minimum displacement limiter Hydraulic fluids Temperature and viscosity Filtration system...18 Fluid selection Reservoir...19 Independent braking system Motor bearing life External shaft loads External shaft load orientation...21 Radial and thrust loads to the output shaft llowable external shaft load, when shaft load distance is different from standard Efficiency graphs and maps Speed sensor Typical control and regulator applications...26 Controls circuit diagram nomenclature description Option N1NN hydraulic two-position control for 51-1 (frame size: 060, 080, 110)...27 Option H1 hydraulic two-position control for 51 (frame size: 160, 250) Options T** pressure compensator control for 51-1 (frame size: 060, 080, 110)...30 Option TC: pressure compensator configuration with hydraulic rake Pressure Defeat...31 Options TD1, TD2, TD7: pressure compensator configuration with electric PD TD* solenoid connectors Option TC2: pressure compensator configuration without rake Pressure Defeat Options T** pressure compensator controls for 51 (frame size 160, 250) Option TC0: pressure compensator configuration with hydraulic rake Pressure Defeat Option TC2: pressure compensator configuration without rake Pressure Defeat Options TH** hydraulic two-position control for 51-1 (frame size: 060, 080, 110) Pressure Compensator OverRide (PCOR)...35 Option THC: pressure compensator configuration with hydraulic rake Pressure Defeat...36 Options THD1, THD2, THD7: pressure compensator configuration with electric PD...36 THD* solenoid connectors...37 Option THC2: pressure compensator configuration without rake Pressure Defeat...37 Options TH** hydraulic two-position control for 51 (frame size 160, 250)...38 Pressure Compensator OverRide (PCOR)...38 Option THC0: pressure compensator configuration with hydraulic PD Option THC2: pressure compensator configuration without rake Pressure Defeat...39 Options E11, E21, E71 electrohydraulic two-position control for 51-1 (frame size 060, 080, 110)...40 E11, E21, E71 solenoid connectors Options E15, E25 electrohydraulic two-position control for 51 (frame size 160, 250)...42 E15, E25 solenoid connectors...43 Options F11, F21 electrohydraulic two-position control for 51-1 (frame size 060, 080, 110)...44 F11, F21 solenoid connectors Danfoss October L0440 C en-US0401 3

4 Contents Options F15, F25 electrohydraulic two-position control for 51 (frame size 160, 250)...46 F15, F25 solenoid connectors...47 Options T1**, T2**, T7** electrohydraulic two-position control for 51-1 (frame size 060, 080, 110) Option T*C: pressure compensator configuration with hydraulic rake Pressure Defeat...49 Options T*D1, T*D2, T* D7: pressure compensator configuration with electric PD T1D1, T2D2, T7D7 solenoid connectors...50 Option T*C2: pressure compensator configuration without rake Pressure Defeat Options T1**, T2** electrohydraulic two-position control for 51 (frame size 160, 250) Option T*C0: pressure compensator configuration with hydraulic rake Pressure Defeat Option T*C2: pressure compensator configuration without rake Pressure Defeat T1C2, T2C2 solenoid connectors Options EP**, EQ** electrohydraulic proportional control for 51 (all frame sizes) Pressure Compensator Override (PCOR)...54 Options EP1, EQ1: pressure compensator configuration with rake Pressure Defeat Options EP2, EQ2: pressure compensator configuration without rake Pressure Defeat Options L11, L21, L71 electrohydraulic proportional control for 51 (all frame sizes) L11, L21, L71 solenoid connectors...57 Options D7M1, D8M1 electrohydraulic proportional control with PCOR and hydraulic PD for 51 (all frame sizes) Options D7M1, D8M1: pressure compensator configuration with hydraulic rake Pressure Defeat...59 D7M1, D8M1 solenoid connector...59 Options HS** hydraulic proportional control for 51 (all frame sizes) Pressure Compensator OverRide (PCOR)...60 Option HS1: pressure compensator configuration with rake Pressure Defeat...61 Option HS2: pressure compensator configuration without rake Pressure Defeat...61 Option H1 hydraulic proportional control for 51 (all frame sizes)...62 General dimensions frame size 060 SE flange design per ISO 3019/ DIN flange design per ISO 3019/ Cartridge flange...70 General dimensions frame size 080 SE flange design per ISO 3019/ DIN flange design per ISO 3019/ Cartridge flange...79 General dimensions frame size 110 SE flange design per ISO 3019/ DIN flange design per ISO 3019/ Cartridge flange...88 General dimensions frame size 160 SE flange design per ISO 3019/ DIN flange design per ISO 3019/ Cartridge flange...95 General dimensions frame size 250 SE flange design per ISO 3019/ Dimension Controls Options T** for 51-1 Pressure Compensator Control (Frame Size: 060, 080, 110) Options T** for 51 Pressure Compensator Control (Frame Size: 160, 250) Options TH** for 51-1 Hydraulic Two-Position Control (Frame Size: 060, 080, 110) Options TH** for 51 Hydraulic Two-Position Control (Frame Size: 160, 250) Options E*1, F*1 for 51-1 Electrohydraulic Two-Position Control (Frame Size: 060, 080, 110) Options E*5, F*5 for 51 Electrohydraulic Two-Position Control (Frame Size: 160, 250) Options T1**, T2**, T7** for 51-1 Electrohydraulic Two-Position Control (Frame Size: 060, 080, 110) Options T1C2, T2C2 for 51 Electrohydraulic Two-Position Control (Frame Size: 060, 080, 110) Options EP1, EQ1 for 51 Electrohydraulic Two-Position Control (ll Frame Sizes) Options L11, L21, L71 for 51 Electrohydraulic Two-Position Control (ll Frame Sizes) Options D7M1, D8M1 for 51 Electrohydraulic Two-Position Control (Frame Size: 060, 080, 110) Danfoss October L0440 C en-US0401

5 Contents Options D7M1, D8M1 for 51 Electrohydraulic Two-Position Control (Frame Size: 160, 250) Option HS* for 51 Hydraulic Proportional Control (ll Frame Sizes) Option H1 for 51 Hydraulic Proportional Control (ll Frame Sizes) Danfoss October L0440 C en-US0401 5

6 Series 51 general information Series 51 and 51-1 variable displacement motors are bent axis design units, incorporating spherical pistons. These motors are designed primarily to be combined with other products in closed circuit systems to transfer and control hydraulic power. Series 51 and 51-1 motors have a large maximum / minimum displacement ratio (5:1) and high output speed capabilities. SE, cartridge, and DIN flange configurations are available. complete family of controls and regulators is available to fulfill the requirements of a wide range of applications. Motors normally start at maximum displacement. This provides maximum starting torque for high acceleration. The controls may utilize internally supplied servo pressure. They may be overridden by a pressure compensator which functions when the motor is operating in motor and pump modes. defeat option is available to disable the pressure compensator override when the motor is running in pump mode. The pressure compensator option features a low pressure rise (short ramp) to ensure optimal power utilization throughout the entire displacement range of the motor. The pressure compensator is also available as a stand-alone regulator. The series 51 and 51-1 motors dvanced technology The most technically advanced hydraulic units in the industry SE, cartridge, and DIN flange motors Cartridge motors designed for direct installation in compact planetary drives Large displacement ratio (5:1) Complete family of control systems Proven reliability and performance Optimum product configurations Compact, lightweight 6 Danfoss October L0440 C en-US0401

7 Series 51 general information Sectional view of Series 51, proportional control Series 51 with electric proportional control P Legend: 1 Piston 2 Flange 3 Servo piston 4 Electric proportional control 5 Synchronizing shaft 6 Speed sensor 7 Charge pressure relief valve 8 Minimum displacement limiter 9 Valve segment 10 earing plate 11 Speed pickup ring 12 Tapered roller bearings Danfoss October L0440 C en-US0401 7

8 Series 51 general information Sectional view of Series 51-1, two-position control Series 51 with electrohydraulic two-position control Legend: 4 P Piston 2 Flange 3 Servo piston 4 Electrohydraulic two-position control 5 Synchronizing shaft 6 Speed sensor 7 Charge pressure relief valve 8 Minimum displacement limiter 9 Valve segment 10 earing plate 11 Speed pickup ring 12 Tapered roller bearings 8 Danfoss October L0440 C en-US0401

9 Series 51 general information Pictorial diagram Control handle Displacement control valve Heat exchanger ypass valve Reservoir Reversible variable displacement pump Orificed check valve Servo control cylinder Multi-function valve Servo pressure relief valves Heat exchanger Charge pressure relief valve to pump case Loop flushing valve Vacuum gauge Hydraulic two-position control ent axis variable displacement motor Input shaft Pump swashplate Servo control cylinder Charge pump Multi-function valve Loop flushing relief valve to motor case Output shaft Synchronizing shaft orking loop (High pressure) orking loop (Low pressure) Suction Servo pressure Case drain fluid P E System circuit diagram M1 M5 M M3 L2 M3 N max. disp. n M1 T2 T3 M2 T1 T7 T8 M5 M2 S L2 L1 X1 M7 Signal pressure supply P001833E bove schematic shows the function of a hydrostatic transmission using a Series 90 xial Piston Variable Displacement Pump with manual displacement control (M) and a Series 51 ent xis Variable Displacement Motor with hydraulic two-position control (H). Danfoss October L0440 C en-US0401 9

10 Series 51 general information Series 51/51-1 name plates Series 51 name plate Model code arcode serial number Model No./Ident. No. Model Code Serial No. Neumünster/Germany 51V080 RS1N L11 31 D 051F0 D400 Made in Germany N Ident number Serial number Series 51-1 name plate Place of manufacture P E Model code arcode serial number Model No./Ident. No. Model Code Serial No. Neumünster/Germany 51D110-1-RD4N E11 NNU2 DD Made in Germany N Ident number Serial number Place of manufacture P E Danfoss October L0440 C en-US0401

11 Technical specifications General specifications Most specifications for bent axis variable displacement motors are listed on these pages. For definitions of the various specifications, see the related pages in this publication. Not all hardware options are available for all configurations; consult the series 51 and 51-1 model code supplement or price book for more information. General specifications Design Direction of rotation Recommended installation Other system requirements xial piston motor with variable displacement, bent axis design Clockwise and counter-clockwise (bi-directional) Discretionary, the housing must always be filled with hydraulic fluid Independet braking system, circuit overpressure protection, suitable reservoir Specific data Physical properties Features Displacement Theor. flow at max. displ. Maximum Unit cm 3 [in 3 ] Size [3.66] 80.7 [4.92] [6.71] [9.82] 250 [15.26] Minimum 12 [0.73] 16.1 [0.98] 22 [1.34] 32.2 [1.96] 50.0 [3.05] at rated speed l/min 216 [57] 250 [66] 308 [81] 402 [106] 550 [145] at max. speed [US gal/min] 264 [71] 323 [85] 396 [105] 515 [136] 675 [178] Theor. corner power at rated speed and max. working pressure (Δp = 450 bar [6527 psi]) k [hp] 252 [338] 300 [402] 371 [498] 480 [644] 638 [856] Theoretical torque at max. displ. Mass moment of inertia of rotating components N m/bar [lbf in/1000 psi] 0.95 [583] at min. displ [117] kg m 2 [slug ft 2 ] [0.1092] 1.28 [784] 0.26 [156] [0.1685] 1.75 [1067] 0.35 [214] [0.3037] 2.56 [1563] 0.51 [313] [0.5553] 3.98 [2428] 0.80 [486] [1.1580] at max. displ Rated speed at min. displ min -1 (rpm) speed * at min. displ Maximum at max. displ * Contact Danfoss representative for max. speed at displacements between max. and min. displacement. Danfoss October L0440 C en-US

12 Technical specifications System and case pressure Parameter Unit ll sizes Maximum delta 480 [7000] System pressure Case pressure Maximum 510 [7400] Minimum low 10 [145] bar [psi] Rated 3 [44] Maximum (cold start) 5 [73] Minimum (at rated speed) 0.3 [4.35] Fluid specifications Fluid specifications Features Unit ll sizes Viscosity Temperature range 1)2) Cleanliness and Filtration Minimum intermittent 7 [49] Recommended range mm 2 /s [SUS] [66-366] Maximum intermittent 1600 [7416] Minimum -40 [-40] Rated C [ F] 104 [220] Maximum intermittent 115 [240] Required cleanliness per ISO /18/13 Efficiency (charge pressure filtration) β = 75 (β 10 10) β-ratio Efficiency (suction / return line filtration) β = 75 (β 10 2) Recommended inlet screen mesh size µm ) t the hottest point, normally case drain port. 2) Minimum: cold start, short term t<3 min, p<50 bar, n<1000 rpm. 12 Danfoss October L0440 C en-US0401

13 Technical specifications Determination of nominal motor size ased on SI units Q e = V g n 1000 v ased on US units Q e = V g n 231 v M e = V g p mh 20 M e = V g p mh 2 P e = M e n 9550 = Q e p t 600 P e = V g n p t n = Qe 1000 v V g n = Qe 231 v V g here: here: Q e M e P e Input flow (l/min) Output torque (N m) Output power (k) n Speed (min -1 ) V g p high p low p η v η mh Motor displacement per rev. (cm 3 /rev) High pressure (bar) Low pressure (bar) High pressure minus Low pressure (bar) Motor volumetric efficiency Mechanical-hydraulic efficiency η t Motor total efficiency (η v η mh ) Q e M e P e n V g p high p low p η v η mh Input flow [US gal/min] Output torque [lb in] Output power [hp] Speed [rpm] Motor displacement per rev. [in 3 /rev] High pressure [psi] Low pressure [psi] High pressure minus Low pressure [psi] Motor volumetric efficiency Mechanical-hydraulic efficiency η t Motor total efficiency (η v η mh ) Danfoss October L0440 C en-US

14 General technical specifications Case pressure Under normal operating conditions, case pressure must not exceed the rated pressure. Momentary case pressure exceeding this rating is acceptable under cold start conditions, but still must stay below the maximum pressure rating. The minimum pressure provides proper lubrication at high speeds. Operation with case pressure in excess of these limits may result in external leakage due to damage to seals, gaskets, and/or housings. Case pressure Parameter Unit ll sizes Rated 3 [44] Case pressure Maximum (cold start) bar [psi] 5 [73] Minimum (at rated speed) 0.3 [4.35] Speed range Rated speed is the speed limit recommended at full power condition and is the highest value at which normal life can be expected. Maximum speed is the highest operating speed permitted and cannot be exceeded without reduction in the life of the product or risking immediate failure and loss of driveline power (which may create a safety hazard). In the range between rated and maximum speed please contact your Danfoss Power Solutions representative. arning The loss of hydrostatic drive line power in any mode of operation (e.g., forward, reverse, or neutral ) may cause the loss of hydrostatic braking capacity. braking system, redundant to the hydrostatic transmission must, therefore, be provided which is adequate to stop and hold the system should the condition develop. Speed limits Features Rated speed Maximum speed Size Unit at max. displ at min. displ min -1 (rpm) at max. displ at min. displ Danfoss October L0440 C en-US0401

15 General technical specifications Speed limits Maximim speed at min. displacement Curve determined by rated flow Rated speed at min. displacement Speed min -1 (rpm) cceptable operating range Maximum speed at max. displacement Rated speed at max. displacement Min. displacement Motor angle (degrees) Max. displacement P E For operation within the range above the acceptable range contact Danfoss Power Solutions representative. Pressure limits System pressure is the dominant operating variable affecting hydraulic unit life. High pressure, which results from high load, reduces expected life in a manner similar to the affects of high load on other mechanical assemblies such as engines and gear boxes. There are load-to-life relationships for the rotating group and for the shaft anti-friction bearings. Continuous pressure is the pressure at which the hydrostatic system could operate continuously and still achieve acceptable hydrostatic life. This pressure level varies depending on operating speed, and on the life requirements for a particular application. hile most mobile applications require system pressure to vary widely during operation, a weighted average pressure can be derived from a machine duty cycle. ( duty cycle is a means of quantifying the pressure and speed demands of a particular system on a percent time basis). Once a duty cycle has been determined or estimated for a specific application, contact your Danfoss representative for system life ratings for the application. Maximum delta pressure is the highest intermittent pressure allowed, and is the relief valve setting. It is determined by the maximum machine load demand. For most systems, the load should move at this pressure. Maximum pressure is assumed to occur a small percentage of operating time, usually less than 2 % of the total. oth the continuous and maximum pressure limits must be satisfied to achieve the expected life. Minimum low pressure must maintained under all operating conditions to avoid cavitation. System pressure range, input Maximum delta pressure Minimum low pressure Maximum pressure 480 [7000 psi] 10 [145 psi] 510 [7400 psi] Danfoss October L0440 C en-US

16 General technical specifications Loop flushing n integral non-adjustable loop flushing valve is incorporated into all these motors. Installations that require fluid to be removed from the low pressure side of the system circuit because of cooling requirements or contamination removal will benefit from loop flushing. The integral loop flushing valve is equipped with an orificed charge pressure relief valve designed with a cracking pressure of 16 bar [232 psi]. Valves are available with several orifice sizes to meet the flushing flow requirements of all system operating conditions. The total system charge pump flow should be of sufficient volume to accommodate: The number of motors in the system System efficiency under worst case conditions Pump control requirements External needs lthough charge pump sizing requires the consideration of many system variables, the following table gives a recommendation of what charge pump displacement may be required to accommodate the flushing flow of each available charge relief valve orifice. Recommended charge pump displacement Loop flushing valve E4, E6 F0 F3 G0 G3 H0 Charge pump size (cm 3 ) or , 47 or 65 arning The loss of hydrostatic drive line power in any mode of operation (e.g., forward, reverse, or neutral mode) may cause the loss of hydrostatic braking capacity. braking system, redundant to the hydrostatic transmission must, therefore, be provided which is adequate to stop and hold the system should the condition develop. Loop flushing valve Loop flushing shuttle spool Loop flushing relief valve P E Hydraulic schematic P Danfoss October L0440 C en-US0401

17 General technical specifications Case flow characteristic Low system pressure minus case pressure bar [psi] [508] 35 [363] 25 [218] 15 [73] [1.3] E4 E6 F0 F3 G0 G3 H0 10 [2.6] 15 [4.0] 20 [5.3] 25 [6.6] 30 [8.0] Case flow l/min [US gal/min] [9.2] [10.6] P E Equation: here: Q Flush flushing flow per motor Q Charge charge flow at operating speed k Mo number of motors feeded by one pump Q Leak sum of external leakages Q Leak includes: motor leakage pump leakage + internal consumers: 8 l/min [2.11 US gal/min] for displacement control pumps or for non-feedback controlled pumps at 200 bar [2900 psi] external consumers: e.g. brakes, cylinders, and other pumps Minimum displacement limiter ll Series 51 and 51-1 motors incorporate mechanical displacement limiters. The minimum displacement of the motor is preset at the factory with a set screw in the motor housing. tamper-proof cap is provided. Hydraulic fluids Ratings and data are based on operating with hydraulic fluids containing oxidation, rust and foam inhibitors. These fluids must possess good thermal and hydrolytic stability to prevent wear, erosion and corrosion of the internal components. Fire resistant fluids are also suitable at modified operating conditions. Please see Danfoss literature Technical Information Hydraulic Fluids and Lubricants for more information. For more information contact your Danfoss representative. C Caution It is not permissible to mix hydraulic fluids. Suitable hydraulic fluids: Danfoss October L0440 C en-US

18 General technical specifications Hydraulic fluids per DIN , part 2 (HLP) Hydraulic fluids per DIN , part 3 (HVLP) PI CD, CE and CF engine fluids per SE J183 M2C33F or G automatic transmission fluids (TF) gricultural multi purpose oil (STOU) Premium turbine oils (for Premium turbine oils contact your Danfoss representative). Temperature and viscosity Temperature and viscosity requirements must be concurrently satisfied. The data shown in the tables assume petroleum-based fluids, are used. The high temperature limits apply at the hottest point in the transmission, which is normally the motor case drain. The system should generally be run at or below the rated temperature. The maximum temperature is based on material properties and should never be exceeded. Cold oil will generally not affect the durability of the transmission components, but it may affect the ability to flow oil and transmit power; therefore temperatures should remain 16 C [30 F] above the pour point of the hydraulic fluid. The minimum temperature relates to the physical properties of component materials. For maximum unit efficiency and bearing life the fluid viscosity should remain in the recommended operating range. The minimum viscosity should be encountered only during brief occasions of maximum ambient temperature and severe duty cycle operation. The maximum viscosity should be encountered only at cold start. Heat exchangers should be sized to keep the fluid within these limits. Testing to verify that these temperature limits are not exceeded is recommended. Viscosity and temperature range Features Unit ll sizes Minimum intermittent 7 [49] Viscosity Recommended range mm 2 /s [SUS] [66-366] Maximum intermittent 1600 [7416] Minimum -40 [-40] Temperature range 1)2) Rated C [ F] 104 [220] Maximum intermittent 115 [240] 1) t the hottest point, normally case drain port. 2) Minimum: cold start, short term t<3 min, p<50 bar, n<1000 rpm. Filtration system To prevent premature wear, ensure that only clean fluid enters the hydrostatic transmission circuit. filter capable of controlling the fluid cleanliness to ISO 4406, class 22/18/13 (SE J1165) or better, under normal operating conditions, is recommended.these cleanliness levels cannot be applied for hydraulic fluid residing in the component housing/case or any other cavity upon delivery from the factory. The filter may be located on the pump (integral) or in another location (remote or suction). The integral filter has a filter bypass sensor to signal the machine operator when the filter requires changing. Filtration strategies include suction or pressure filtration. The selection of the filter strategy depends on a number of factors including the contaminant ingression rate, the generation of contaminants in the system, the required fluid cleanliness, and the desired maintenance interval. Filters are selected to meet the above requirements using rating parameters of efficiency and capacity. Filter efficiency can be measured with a eta ratio (β X ). For simple suction-filtered closed circuit transmissions and open circuit transmissions with return line filtration, a filter with a β-ratio within the 18 Danfoss October L0440 C en-US0401

19 General technical specifications range of β = 75 (β 10 2) or better has been found to be satisfactory. For some open circuit systems, and closed circuits with cylinders being supplied from the same reservoir, a higher filter efficiency is recommended. This also applies to systems with gears or clutches using a common reservoir. For these systems, a charge pressure or return filtration system with a filter β-ratio in the range of β = 75 (β 10 10) or better is typically required. ecause each system is unique, only a thorough testing and evaluation program can fully validate the filtration system. For more information, see Design Guidelines for Hydraulic Fluid Cleanliness, Technical Information C Filter β x -ratio is a measure of filter efficiency defined by ISO It is defined as the ratio of the number of particles greater than a given diameter ( x in microns) upstream of the filter to the number of these particles downstream of the filter. Filtration, cleanliness level and β x -ratio (recommended minimum) Cleanliness per ISO /18/13 Efficiency β x (charge pressure filtration) β = 75 (β 10 10) Efficiency β x (suction and return line filtration) β = 75 (β 10 2) Recommended inlet screen mesh size µm Fluid selection Ratings and performance data are based on operating with hydraulic fluids containing oxidation, rust and foam inhibitors. These fluids must possess good thermal and hydrolytic stability to prevent wear, erosion, and corrosion of motor components. C Caution Never mix hydraulic fluids of different types. Fire resistant fluids are also suitable at modified operating conditions. For more information, see Hydraulic Fluids and Lubricants, Technical Information C Reservoir The function of the reservoir is to remove air and to provide make up fluid for volume changes associated with fluid expansion or contraction, possible cylinder flow, and minor leakage. The reservoir should be designed to accommodate maximum volume changes during all system operating modes and to promote deaeration of the fluid as it passes through the tank. minimum reservoir volume equal to 1/2 to 1 1/2 times charge pump flow/min is suggested. This allows 30 seconds fluid dwell for removing entrained air at the maximum return flow. This is usually adequate to allow for a closed reservoir (no breather) in most applications. The reservoir outlet to the charge pump inlet should be above the bottom of the reservoir to take advantage of gravity separation and prevent large foreign particles from entering the charge inlet line. The reservoir inlet (fluid return) should be positioned so that the flow to the reservoir is discharged below the normal fluid level, and also directed into the interior of the reservoir for maximum dwell and efficient deaeration. Independent braking system arning The loss of hydrostatic drive line power in any mode of operation (e.g., forward, reverse, or neutral mode) may cause the loss of hydrostatic braking capacity. braking system, redundant to the hydrostatic transmission must, therefore, be provided which is adequate to stop and hold the system should the condition develop. Danfoss October L0440 C en-US

20 General technical specifications Motor bearing life The rated motor bearing life L h10 shown in the table below is based on a 90 % survival rate of shaft bearings, when operating at a speed of n = 1500 min -1 (rpm) with a charge pressure of 20 bar [290 psi] and without external shaft load. The rated motor bearing life L h10 (hours) Frame Size Effective pressure bar [psi] Motor angle [2030] [3050] [4060] [2030] [3050] [4060] [2030] [3050] [4060] [2030] [3050] [4060] [2030] [3050] [4060] Lifetimes for speeds other than 1500 min -1 (rpm) can be calculated from: L 2 = L n 2 hours here: L 1 = n 2 = Rated L 10 life at 1500 min -1 (rpm) Operating speed Units: hours min -1 (rpm) Contact your Danfoss Power Solutions representative for bearing life values at other pressure and angle. 20 Danfoss October L0440 C en-US0401

21 General technical specifications External shaft loads Series 51 and 51-1 motors are designed with bearings that can accept external radial and thrust loads. The external radial shaft load limits are a function of the load position, the load orientation, and operating conditions of the unit. External shaft load orientation SE-Flange design per ISO 3019/1 X2 > X1 X2 < X1 35 Fr OPTIMUM LOD ORIENTTION 35 X 1 Fr Fa DIN-Flange design per ISO 3019/2 X2 > X1 X2 < X1 35 Fr OPTIMUM LOD ORIENTTION 35 X 1 Fr Fa Cartridge Flange design Fr OPTIMUM LOD ORIENTTION X2 > X1 X2 < X X 1 Fr Fa P E Danfoss October L0440 C en-US

22 General technical specifications Radial and thrust loads to the output shaft The table below provides the following information: The maximum allowable radial load (Fr) based on the distance (X 1 ) from the mounting flange to the load. The maximum allowable axial load (Fa). The actual distance of Fr for a given application from the mounting flange to the load (X 2 ). The basic distance (). Fa/ p ratio of allowable axial load, dependent upon the system pressure. Radial and thrust loads to the output shaft Feature Symbol Unit Frame Size Maximum allowable radial load Max. allow. axial load at zero rpm, or running in the idle pressure Fr [2248] Fa N [lb] 1100 [247] Max. allowable bending moment M N m [lb in] Max. allowable axial load at pressure Fa/ p N/bar [lb/1000 psi] Distance SE mounting flange [2230] 10.4 [161] 33.6 [1.32] Distance DIN mounting flange 57.2 X 1 [2.25] mm [in] Distance Cartridge mount. flange [4.63] asic distance 25.2 [0.99] = not available [2698] 1400 [315] 307 [2717] 12.6 [195] 33.6 [1.32] 57.6 [2.27] [5.36] 25.6 [1.01] [3147] 1800 [405] 766 [6780] 15.2 [236] 62.7 [2.47] 94.7 [3.73] [7.0] 54.7 [2.15] [4047] 2500 [562] 805 [7125] 19.2 [298] 52.7 [2.07] 84.7 [3.33] [5845] 4500 [1012] 970 [8585] 26.4 [409] 45.3 [1.78] 44.7 [1.76] The values in the table are maximum values and are not allowed under continuous load conditions [1.47] llowable external shaft load, when shaft load distance is different from standard Use this formula to calculate maximum allowable radial load when max. shaft load distance X 2 is different from X 1 : Metric system: Inch system: Metric or Inch system: X 2 > X 1 Fr = Fr max N [lbf] X 2 is the actual distance of Fr from the mounting flange to the load for a given application. If X 2 < X 1, Fr could also be calculated by the first equation, but in addition the bearing life has to be checked. Contact your Danfoss representative for load ratings of specific shafts or when the load orientation deviates more than 35 in either direction from the optimum. 22 Danfoss October L0440 C en-US0401

23 General technical specifications Efficiency graphs and maps This graph provides the volumetric and overall efficiencies for a typical Series 51 and 51-1 motor operating at maximum displacement, system pressures of 210 and 420 bar [3050 and 6090 psi], and a fluid viscosity of 8.2 mm²/s [53 SUS]. These efficiencies can be used for all frame sizes. Overall and volumetric efficiency at maximum displacement volumetric efficiency η v = 210 bar [3050 psi] η v = 420 bar [6090 psi] Efficiency % 90 η t = 420 bar [6090 psi] total efficiency η t = 210 bar [3050 psi] Speed % of rated speed P E This graph shows typical overall efficiencies for Series 51 and 51-1 motors operating at maximum displacement and system pressures up to 420 bar [6090 psi], and a fluid viscosity of 8.2 mm²/s [53 SUS]. These efficiencies can be used for all frame sizes. Overall efficiency at maximum displacement 420 [6090] System pressure bar [psi] 280 [4060] 140 [2030] % 93.5% 90.5% 84.5% 74.5% Speed% of rated speed P E This graph shows typical overall efficiencies for Series 51 and 51-1 motors operating at 30% of maximum displacement and system pressures up to 420 bar [6090 psi], and a fluid viscosity of 8.2 mm²/s (53 SUS). These efficiencies can be used for all frame sizes. Danfoss October L0440 C en-US

24 General technical specifications Overall and volumetric efficiency at 30% of maximum displacement volumetric efficiency η v = 210 bar [3050 psi] η v = 420 bar [6090 psi] Efficiency % overa l efficiency η t = 210 bar [3050 psi] η t = 420 bar [6090 psi] Speed % of rated speed P E This graph shows typical overall efficiencies for Series 51 and 51-1 motors operating at 30% of maximum displacement and system pressures up to 420 bar [6090 psi], and a fluid viscosity of 8.2 mm²/s (53 SUS). These efficiencies can be used for all frame sizes. Overall efficiency at 30% of maximum displacement 420 [6090] System pressure bar [psi] 280 [4060] 140 [2030] 81% 80% 77% 71% 61% Speed % of rated speed P E 24 Danfoss October L0440 C en-US0401

25 General technical specifications Speed sensor n optional speed sensor for direct measurement of speed is available. This sensor may also be used to sense the direction of rotation. special magnetic speed pick-up ring is pressed onto the outside diameter of the shaft and a Hall effect sensor is located in the motor housing. The sensor accepts supply voltage and outputs a digital pulse signal in response to the speed of the ring. The output changes its high/low state as the north and south poles of the permanently magnetized speed ring pass by the face of the sensor. The digital signal is generated at frequencies suitable for microprocessor based controls. The sensor is available with different connectors (see below). The SE and DIN flange motors use a flat end speed sensor. The cartridge flange motors use a conical end speed sensor. Data magnetic speed pick-up ring Frame size Pulze/Rev Speed sensor technical data Supply voltage 1) Supply voltage regulated Required current Maximum current Maximum frequency Voltage "high" Voltage "low" Temperature range V DC 15 V DC max. 12 m at 5 V DC (no load) 20 m at 5 V DC and 1 Hz 15 khz Supply voltage -0.5 V DC min. 0.5 V DC max. -40 to 110 C [-40 to 230 F] 1) It is not acceptable to energize the V DC speed sensor with 12 V DC battery voltage; it must be energized by a regulated power supply. If it is desirable to energize the sensor with battery voltage, contact your Danfoss representative for an optional speed sensor. Speed sensor with Turck Eurofast 4-pin connector P Pin 1 or : Supply voltage Pin 2 or : Direction of rotation Pin 3 or C: Speed signal, digital Pin 4 or D: Ground common Speed sensor with Packard eather-pack 4-pin connector Red hite lack Green P E Turck Eurofast Connector 4 pin (Supplied connector) IP Rating (DIN ) IP 67 Keyway (Ref) Mating connector straight No.: K14956 right angle No.: K Id.-No.: Id.-No.: P E 2 1 Danfoss October L0440 C en-US

26 General technical specifications Packard eather-pack 4 pin (Supplied Connector) Mating Connector No.: K03379 Id.-No.: C D P E Contact your Danfoss representative for more information. Typical control and regulator applications pplication Control / Regulators without PCOR with PCOR with PCOR and PD heel loader 1) N1 H E1, E2, E7 EP, EQ F1, F2 L1, L2, L7 T T1, T2 TH HS T T1, T2 EP, EQ D7, D8 HS Roller compactor 1) Paver wheeled 1) Paver tracked 1) Sweeper 1) Trencher 1) Excavator wheeled 1) Fork lift truck 1) gricultural 1) Forestry 1) Telehandler 1) Railroad 1) Snow groomer 1) Snow blower 2) Crane 3) Suitable configuration 1) Propel function 2) low drive function 3) inch function The table above is provided to assist in selecting controls and regulators for various applications. These recommendations are based on experience with a wide range of applications. Contact your Danfoss Power Solutions representative for more information on control selection. 26 Danfoss October L0440 C en-US0401

27 Controls circuit diagram nomenclature description Option N1NN hydraulic two-position control for 51-1 (frame size: 060, 080, 110) L2 N min. disp. n T3 T2 X1 (M3) M5 L1 P E, = Main pressure lines L1, L2 = Drain lines = Gauge port servo pressure M5 = Gauge port servo supply pressure X1 (M3) = Control pressure T1, T2, T3 = Optional orifices N = Speed sensor Displacement changes from maximum displacement to minimum displacement position, under load, as control pressure at port X1 (M3) is equal to low pressure or higher. Control pressure on port X1 (M3) No pressure on port = maximum displacement Control pressure on port = minimum displacement Maximum control pressure = 50 bar [725 psi] The graph shows the necessary external and internal (= low system pressure) control pressure X1, which is needed to stroke the motor depending on high system pressure. Control N1NN necessary control pressure Servo pressure bar [psi] 30 [435] 20 [290] 10 [145] minimum servo pressure under all conditions [1450] [2900] [4350] System pressure bar [psi] 400 [5800] P E Danfoss October L0440 C en-US

28 Controls circuit diagram nomenclature description Control operation N1NN Control pressure min Displacement max P E Not all control options are shown in this Technical Information. Contact your Danfoss representative for special control functions. Option H1 hydraulic two-position control for 51 (frame size: 160, 250) L2 max. disp. M3 n N M1 T3 T2 T1 T7 T8 M5 M2 L1 X1 M7 P E, = Main pressure lines L1, L2 = Drain lines M1, M2 = Gauge port for and M3, = Servo pressure M5 = Gauge port servo supply pressure internal M7 = Gauge port control pressure X1 = Control pressure T1, T2, T3, T7, T8 = Optional orifices N = Speed sensor Displacement can be changed hydraulically under load from minimum displacement to maximum displacement and vice versa by control pressure to port X1. For proportional control see Option H1 hydraulic proportional control for 51 (all frame sizes) on page 62 Control pressure on port X1 28 Danfoss October L0440 C en-US0401

29 Controls circuit diagram nomenclature description No pressure on port = maximum displacement Control pressure on port = minimum displacement Maximum control pressure = 50 bar [725 psi] The standard control start point setting = 3 bar [44 psi] Control operation H1 min Displacement max 0 3 [44] Control pressure Δ bar [psi] P E Not all control options are shown in this Technical Information. Contact your Danfoss representative for special control functions. Danfoss October L0440 C en-US

30 Controls circuit diagram nomenclature description Options T** pressure compensator control for 51-1 (frame size: 060, 080, 110) Circuit diagram motor with pressure compensator control T** X X L2 N min. disp. n T3 T3 T3 M3 with Electric brake pressure defeat M3 with Hydraulic brake pressure defeat M3 without rake pressure defeat L1 P E Ports:, = Main pressure lines L1, L2 = Drain lines M3, = Servo pressure X, X = Control pressure port brake pressure defeat (PD) T3 = Orifice N = Speed sensor Displacement is regulated automatically between minimum and maximum displacement in response to system pressure. Regulator start = minimum displacement Regulator end = maximum displacement Regulator start pressure is adjustable from 130 to 370 bar [1890 to 5370 psi]. Pressure ramp from regulator start pressure (with motor at minimum displacement) until maximum displacement is reached is less than 10 bar [145 psi]. This ensures optimal power utilization throughout the entire displacement range of the motor. Control operation T** min Displacement max Ramp < 10 bar [145 psi] Regulator start Setting range 370 [5370] 130 [1890] System pressure Δ p bar [psi] P E 30 Danfoss October L0440 C en-US0401

31 Controls circuit diagram nomenclature description Option TC: pressure compensator configuration with hydraulic rake Pressure Defeat shuttle valve ahead of the pressure compensator prevents operation in the deceleration direction (when motor is running in pump mode). This is designed to prevent rapid or uncontrolled deceleration while the vehicle/machine is slowing down. Pressure compensator override with brake pressure defeat is mainly used in systems with pumps having electric or hydraulic proportional controls or automotive controls. The shuttle valve must be controlled by a 2-line external signal, based on direction of motor rotation, based on the following table: Motor rotation High pressure port Control pressure on port * PCOR function C X yes C X no CC X no CC X yes * Differencial control pressure between port X/X: p min = 0.5 bar [7 psi] p max = 50 bar [725 psi] Options TD1, TD2, TD7: pressure compensator configuration with electric PD solenoid-switched valve ahead of the pressure compensator prevents operation in the deceleration direction (when motor is running in pump mode). This is designed to prevent rapid or uncontrolled deceleration while the vehicle/machine is slowing down. The solenoid valve must be controlled by an external electric signal, based on direction of motor rotation, see the following table: Motor rotation High pressure port Solenoid PCOR function C energized yes C non energized no CC energized no CC non energized yes TD* solenoid connectors Configuration Voltage / Electric power Connector (supplied) TD1 12 V DC / 34 Solenoid plug face for DIN Mating connector No.: K09129 TD2 24 V DC / 34 Id. No.: P TD7 12 V DC / 34 MP Junior Timer two-pin Mating connector No.: K19815 Id. No.: P Option TC2: pressure compensator configuration without rake Pressure Defeat Pressure compensator functions when the motor is running in motor mode as well as in pump (deceleration) mode. Configuration option High pressure port PCOR function TC2 and yes Danfoss October L0440 C en-US

32 Controls circuit diagram nomenclature description Not all control options are shown in this Technical Information. Contact your Danfoss representative for special control functions. 32 Danfoss October L0440 C en-US0401

33 Controls circuit diagram nomenclature description Options T** pressure compensator controls for 51 (frame size 160, 250) Circuit Diagram Motor with Pressure Compensator Control T** L2 M3 N X X4 X4 M1 max. disp. n T2 T3 T1 T7 T8 (X3) M5 X with rake pressure defeat without rake pressure defeat L1 M2 P E Ports:, = Main pressure lines L1, L2 = Drain lines M1, M2 = Gauge port for and M3, = Gauge port servo pressure M5 (X3) = Gauge port servo supply X, X = Control pressure ports, brake pressure defeat X4 = Gauge port pressure compensator T1, T2, T3, T7, T8 = Optional orifices N = Speed sensor Displacement is regulated automatically between minimum and maximum displacement in response to system pressure. Regulator start = minimum displacement Regulator end = maximum displacement Regulator start pressure is adjustable from 130 to 370 bar [1890 to 5370 psi]. Pressure ramp from regulator start pressure (with motor at minimum displacement) until maximum displacement is reached is less than 10 bar [145 psi]. This ensures optimal power utilization throughout the entire displacement range of the motor. Danfoss October L0440 C en-US

34 Controls circuit diagram nomenclature description Control operation T** min Displacement max Ramp < 10 bar [145 psi] Regulator start Setting range 370 [5370] 130 [1890] System pressure Δ p bar [psi] P E Option TC0: pressure compensator configuration with hydraulic rake Pressure Defeat shuttle valve ahead of the pressure compensator prevents operation in the deceleration direction (when motor is running in pump mode). This is designed to prevent rapid or uncontrolled deceleration while the vehicle/machine is slowing down. Pressure compensator override with brake pressure defeat is mainly used in systems with pumps having electric or hydraulic proportional controls or automotive controls. The shuttle valve must be controlled by a 2-line external signal, based on direction of motor rotation, see the following table. Motor rotation High pressure port Control pressure on port * PCOR function C X no C X yes CC X yes CC X no * Differencial control pressure between port X/X: p min = 0.5 bar [7 psi] p max = 50 bar [725 psi] Option TC2: pressure compensator configuration without rake Pressure Defeat Pressure compensator functions when the motor is running in motor mode as well as in pump (deceleration) mode. Configuration option High pressure port PCOR function TC2 and yes Not all control options are shown in this Technical Information. Contact your Danfoss representative for special control functions. 34 Danfoss October L0440 C en-US0401

35 Controls circuit diagram nomenclature description Options TH** hydraulic two-position control for 51-1 (frame size: 060, 080, 110) Circuit diagram motor with two-position control TH** L2 N X X n min. disp. T3 T3 T3 X1 M3 with Electric brake pressure defeat X1 M3 with Hydraulic brake pressure defeat X1 M3 without rake pressure defeat L1 P E Ports:, = Main pressure lines L1, L2 = Drain lines M1, M2 = Gauge port for and M3, = Gauge port servo pressure M5 (X3) = Gauge port servo supply X, X = Control pressure ports, brake pressure defeat X1 = Hydraulic two-position signal X4 = Gauge port pressure compensator T1, T2, T3, T7, T8 = Optional orifices N = Speed sensor Displacement can be changed hydraulically under load from minimum displacement to maximum displacement and vice versa. Pressure on port X1 must be equal to the pressure of the motor case ± 0.2 bar [3.0 psi] this keeps the motor at minimum displacement. Pressure from 10 bar [145 psi] to 35 bar [510 psi] above case pressure on port X1 strokes the motor to maximum displacement. Pressure Compensator OverRide (PCOR) The control can be overridden by PCOR using high loop pressure. hen the PCOR activates, the motor displacement increases toward maximum. Pressure ramp from PCOR start pressure (with motor at minimum displacement) until maximum displacement is reached is less than 10 bar [145 psi]. This ensures optimal power utilization throughout the entire displacement range of the motor. PCOR start pressure is adjustable from 130 to 370 bar [1890 to 5370 psi]. Danfoss October L0440 C en-US

36 Controls circuit diagram nomenclature description Control operation TH** Pressure compensator override bar, [psi] Hydraulic two-positioncontrol 370 [5370] PCOR start setting range [145 psi] min. 10 bar 130 [1890] [510 psi] max. 35 bar min. max. Displacement Ramp < 10 [145] P E Option THC: pressure compensator configuration with hydraulic rake Pressure Defeat shuttle valve ahead of the pressure compensator prevents operation in the deceleration direction (when motor is running in pump mode). This is designed to prevent rapid or uncontrolled deceleration while the vehicle/machine is slowing down. Pressure compensator override with brake pressure defeat is mainly used in systems with pumps having electric or hydraulic proportional controls or automotive controls. The shuttle valve must be controlled by a 2-line external signal, based on direction of motor rotation, based on the following table: Pressure compensator operation Motor rotation High pressure port Control pressure on port * PCOR function C X yes C X no CC X no CC X yes * Differencial control pressure between port X / X: p min = 0.5 bar [7 psi]; p max = 50 bar [725 psi] Options THD1, THD2, THD7: pressure compensator configuration with electric PD solenoid-switched valve ahead of the pressure compensator prevents operation in the deceleration direction (when motor is running in pump mode). This is designed to prevent rapid or uncontrolled deceleration while the vehicle/machine is slowing down. The solenoid valve must be controlled by an external electric signal, based on direction of motor rotation, see the following table: Motor rotation High pressure port Solenoid PCOR function C energized yes C non energized no CC energized no CC non energized yes 36 Danfoss October L0440 C en-US0401

37 Controls circuit diagram nomenclature description THD* solenoid connectors Configuration Voltage / Electric power Connector (supplied) THD1 12 V DC / 34 Solenoid plug face for DIN Mating connector No.: K09129 THD2 24 V DC / 34 Id. No.: P THD7 12 V DC / 34 MP Junior Timer two-pin Mating connector No.: K19815 Id. No.: P Option THC2: pressure compensator configuration without rake Pressure Defeat Pressure compensator functions when the motor is running in motor mode as well as in pump (deceleration) mode. Configuration option High pressure port PCOR function THC2 and yes Not all control options are shown in this Technical Information. Contact your Danfoss representative for special control functions. Danfoss October L0440 C en-US

38 Controls circuit diagram nomenclature description Options TH** hydraulic two-position control for 51 (frame size 160, 250) Circuit diagram motor with two-position control TH** L2 M3 N X X4 X4 M1 max. disp. n T2 T3 X1 X1 T1 T7 T8 (X3) M5 X with rake pressure defeat without rake pressure defeat L1 M2 P E Ports:, = Main pressure lines L1, L2 = Drain lines M1, M2 = Gauge port for and M3, = Gauge port servo pressure M5 (X3) = Gauge port servo supply X, X = Control pressure ports, brake pressure defeat X1 = Hydraulic two-position signal X4 = Gauge port pressure compensator T1, T2, T3, T7, T8 = Optional orifices N = Speed sensor Pressure Compensator OverRide (PCOR) The control can be overridden by PCOR using high loop pressure. hen the PCOR activates, the motor displacement increases toward maximum. Pressure ramp from PCOR start pressure (with motor at minimum displacement) until maximum displacement is reached is less than 10 bar [145 psi]. This ensures optimal power utilization throughout the entire displacement range of the motor. PCOR start pressure is adjustable from 130 to 370 bar [1890 to 5370 psi]. 38 Danfoss October L0440 C en-US0401

39 Controls circuit diagram nomenclature description Control operation TH** Pressure compensator override bar, [psi] Hydraulic two-positioncontrol 370 [5370] PCOR start setting range [145 psi] min. 10 bar 130 [1890] [510 psi] max. 35 bar min. max. Displacement Ramp < 10 [145] P E Option THC0: pressure compensator configuration with hydraulic PD shuttle valve ahead of the pressure compensator prevents operation in the deceleration direction (when motor is running in pump mode). This is designed to prevent rapid or uncontrolled deceleration while the vehicle/machine is slowing down. Pressure compensator override with brake pressure defeat is mainly used in systems with pumps having electric or hydraulic proportional controls or automotive controls. The shuttle valve must be controlled by a 2-line external signal, based on direction of motor rotation, see the following table: Pressure compensator operation Motor rotation High pressure port Control pressure on port * PCOR function C X no C X yes CC X yes CC X no * Differencial control pressure between port X / X: p min = 0.5 bar [7 psi] p max = 50 bar [725 psi] Option THC2: pressure compensator configuration without rake Pressure Defeat Pressure compensator functions when the motor is running in motor mode as well as in pump (deceleration) mode. Configuration option High pressure port PCOR function THC2 and yes Not all control options are shown in this Technical Information. Contact your Danfoss representative for special control functions. Danfoss October L0440 C en-US

40 Controls circuit diagram nomenclature description Options E11, E21, E71 electrohydraulic two-position control for 51-1 (frame size 060, 080, 110) Circuit diagram motor with EH two-position control E11, E21, E71 L2 N min. disp. n T3 T2 M5 M3 L1 P E, = Main pressure lines L1, L2 = Drain lines M3, = Servo pressure M5 = Gauge port servo supply pressure internal T2, T3 = Optional orifices N = Speed sensor Displacement can be changed electrohydraulically under load from maximum displacement to minimum displacement and vice versa, by using a built-in solenoid valve. Control operation E11, E21, E71 Electrohydraulic two-position control Control voltage 12V /24V min Displacement max Options: Solenoid off = max. displacement Solenoid on = min. displacement Pilot pressure for solenoid: internal = low pressure P E The graph shows the necessary servo pressure (= low pressure), which is needed to stroke the motor, depending on high system pressure and the pump or motor mode. 40 Danfoss October L0440 C en-US0401

41 Controls circuit diagram nomenclature description Control E*1 necessary low system pressure Servo pressure bar [psi] 30 [435] 20 [290] 10 [145] 0 0 min. pilot pressure in pump mode to shift from min to max angle min. pilot pressure at all other conditions motor and pump mode in both directions [1450] [2900] [4350] System pressure bar [psi] 400 [5800] P E E11, E21, E71 solenoid connectors Configuration Voltage / Electric power Connector (supplied) E11 12 V DC / 34 Solenoid plug face for DIN Mating connector No.: K09129 E21 24 V DC / 34 Id. No.: P E71 12 V DC / 34 MP Junior Timer two-pin Mating connector No.: K19815 Id. No.: P Not all control options are shown in this Technical Information. Contact your Danfoss representative for special control functions. Danfoss October L0440 C en-US

42 Controls circuit diagram nomenclature description Options E15, E25 electrohydraulic two-position control for 51 (frame size 160, 250) Circuit diagram motor with control options: E15, E25 L2 M3 N M1 max. disp. n T2 T3 T1 T7 T8 M5 M2 L1 M8 M7 P E Ports:, = Main pressure lines L1, L2 = Drain lines M1, M2 = Gauge port for and M3, = Gauge port servo pressure M5 = Gauge port servo supply pressure, internal M7, M8 = Gauge port control pressure, internal T1, T2, T3, T7, T8 = Optional orifices N = Speed sensor Displacement can be changed electrohydraulically under load from maximum displacement to minimum displacement and vice versa, by using a built-in solenoid valve. Control operation E15, E25 Electrohydraulic two-position control Control voltage 12V /24V min Displacement max P E Options: Solenoid off = max. displacement Solenoid on = min. displacement Pilot pressure for solenoid: 42 Danfoss October L0440 C en-US0401

43 Controls circuit diagram nomenclature description internal = low pressure E15, E25 solenoid connectors Configuration Voltage / Electric power Connector (Supplied) E15 12 V DC / 14.7 Solenoid plug face for DIN Mating connector No.: K09129 E25 24 V DC / 14.7 Id. No.: Not all control options are shown in this Technical Information. Contact your Danfoss representative for special control functions. P Danfoss October L0440 C en-US

44 Controls circuit diagram nomenclature description Options F11, F21 electrohydraulic two-position control for 51-1 (frame size 060, 080, 110) Circuit diagram motor with control options: F11, F21 L2 N min. disp. n T3 T2 M5 M3 L1 P E Ports:, = Main pressure lines L1, L2 = Drain lines M3, = Servo pressure M5 = Gauge port servo supply pressure internal T2, T3 = Optional orifices N = Speed sensor Displacement can be changed electrohydraulically under load from maximum displacement to minimum displacement and vice versa, by using a built-in solenoid valve. Control operation F11, F21 Electrohydraulic two-position control Control voltage 12V /24V min Displacement max P E Options: Solenoid off = min. displacement Solenoid on = max. displacement Pilot pressure for solenoid: internal = low pressure The graph shows the necessary servo pressure (= low pressure), which is needed to stroke the motor, depending on high system pressure and the pump or motor mode. 44 Danfoss October L0440 C en-US0401

45 Controls circuit diagram nomenclature description Control F11, F21 necessary low system pressure Servo pressure bar [psi] 30 [435] 20 [290] 10 [145] 0 0 min. pilot pressure in pump mode to shift from min to max angle 100 [1450] min. pilot pressure at all other conditions motor and pump mode in both directions 200 [2900] 300 [4350] System pressure bar [psi] 400 [5800] P E F11, F21 solenoid connectors Configuration Voltage / Electric power Connector (Supplied) F11 12 V DC / 14.7 Solenoid plug face for DIN Mating connector No.: K09129 Id. No.: F21 24 V DC / 14.7 P Not all control options are shown in this Technical Information. Contact your Danfoss representative for special control functions. Danfoss October L0440 C en-US

46 Controls circuit diagram nomenclature description Options F15, F25 electrohydraulic two-position control for 51 (frame size 160, 250) Circuit diagram motor with control options: F15, F25 L2 M3 N M1 max. disp. n T2 T3 T1 T7 T8 M5 M2 L1 M8 M7 P E Ports:, = Main pressure lines L1, L2 = Drain lines M1, M2 = Gauge port for and M3, = Gauge port servo pressure M5 = Gauge port servo supply pressure, internal M7, M8 = Gauge port control pressure, internal T1, T2, T3, T7, T8 = Optional orifices N = Speed sensor Displacement can be changed electrohydraulically under load from maximum displacement to minimum displacement and vice versa, by using a built-in solenoid valve. Control operation F15, F25 Electrohydraulic two-position control Control voltage 12V /24V min Displacement max P E Options: Solenoid off = min. displacement Solenoid on = max. displacement Pilot pressure for solenoid: 46 Danfoss October L0440 C en-US0401

47 Controls circuit diagram nomenclature description internal = low pressure F15, F25 solenoid connectors Configuration Voltage / Electric power Connector (Supplied) F15 F25 12 V DC / V DC / 14.7 Solenoid plug face for DIN Mating connector No.: K09129 Id. No.: P Not all control options are shown in this Technical Information. Contact your Danfoss representative for special control functions. Danfoss October L0440 C en-US

48 Controls circuit diagram nomenclature description Options T1**, T2**, T7** electrohydraulic two-position control for 51-1 (frame size 060, 080, 110) Circuit diagram motor with electrohydraulic two-position control T1**, T2**, T7** L2 N X X min. disp. n T3 T3 T3 M3 with Electric brake pressure defeat M3 with Hydraulic brake pressure defeat M3 without rake pressure defeat L1 P E Ports:, = Main pressure lines L1, L2 = Drain lines M3, = Gauge port servo pressure X, X = Control pressure ports, brake pressure defeat T3 = Optional orifices N = Speed sensor Displacement can be changed electrohydraulically under load from minimum displacement to maximum displacement and vice versa, by using a solenoid. hen the solenoid is energized the motor has maximum displacement and the pressure compensator does not function. Solenoid not energized = minimum displacement Solenoid energized = maximum displacement Pressure Compensator Override (PCOR) The control can be overridden by PCOR using high loop pressure. hen the PCOR activates, the motor displacement increases toward maximum. Pressure ramp from PCOR start pressure (with motor at minimum displacement) until maximum displacement is reached is less than 10 bar [145 psi]. This ensures optimal power utilization throughout the entire displacement range of the motor. PCOR start pressure is adjustable from 130 to 370 bar [1890 to 5370 psi]. 48 Danfoss October L0440 C en-US0401

49 Controls circuit diagram nomenclature description Control operation T1**, T2**, T7** Electrohydraulic two-positioncontrol Pressure compensator override bar, [psi] PCOR start setting range 130 [1890] 370 [5 370] 12V/24V min. max. Displacement Ramp < 10 [145] P E Option T*C: pressure compensator configuration with hydraulic rake Pressure Defeat shuttle valve ahead of the pressure compensator prevents operation in the deceleration direction (when motor is running in pump mode). This is designed to prevent rapid or uncontrolled deceleration while the vehicle/machine is slowing down. Pressure compensator override with brake pressure defeat is mainly used in systems with pumps having electric or hydraulic proportional controls or automotive controls. The shuttle valve must be controlled by a 2-line external signal, based on direction of motor rotation, see the following table: Motor rotation High pressure port Control pressure on port * PCOR function C X yes C X no CC X no CC X yes * Differencial control pressure between port X/X: p min = 0.5 bar [7 psi] p max = 50 bar [725 psi] Options T*D1, T*D2, T* D7: pressure compensator configuration with electric PD solenoid-switched valve ahead of the pressure compensator prevents operation in the deceleration direction (when motor is running in pump mode). This is designed to prevent rapid or uncontrolled deceleration while the vehicle/machine is slowing down. The solenoid valve must be controlled by an external electric signal, based on direction of motor rotation, see the following table: Motor rotation High pressure port Solenoid PCOR function C energized yes C non energized no CC energized no CC non energized yes Danfoss October L0440 C en-US

50 Controls circuit diagram nomenclature description T1D1, T2D2, T7D7 solenoid connectors Configuration Voltage / Electric power Connector (Supplied) T1D1 T2D2 12 V DC / V DC / 34 Solenoid plug face for DIN Mating connector No.: K09129 Id. No.: P T7D7 12 V DC / 34 MP Junior Timer two-pin Mating connector No.: K19815 Id. No.: P Option T*C2: pressure compensator configuration without rake Pressure Defeat Pressure compensator functions when the motor is running in motor mode as well as in pump (deceleration) mode. Configuration option High pressure port PCOR function T*C2 and yes Not all control options are shown in this Technical Information. Contact your Danfoss representative for special control functions. 50 Danfoss October L0440 C en-US0401

51 Controls circuit diagram nomenclature description Options T1**, T2** electrohydraulic two-position control for 51 (frame size 160, 250) Circuit diagram motor with electrohydraulic two-position control T1**, T2** L2 M3 N X X4 X4 M1 max. disp. n T2 T3 T1 T7 T8 M5 X with rake pressure defeat without rake pressure defeat L1 M2 P E Ports:, = Main pressure lines L1, L2 = Drain lines M1, M2 = Gauge port for and M3, = Gauge port servo pressure M5 = Gauge port servo supply X, X = Control pressure ports, brake pressure defeat T1, T2, T3, T7, T8 = Optional orifices N = Speed sensor Displacement can be changed electrohydraulically under load from minimum displacement to maximum displacement and vice versa, by using a solenoid. hen the solenoid is energized the motor has maximum displacement and the pressure compensator does not function. Solenoid not energized = minimum displacement Solenoid energized = maximum displacement Pressure Compensator OverRide (PCOR) The control can be overridden by PCOR using high loop pressure. hen the PCOR activates, the motor displacement increases toward maximum. Pressure ramp from PCOR start pressure (with motor at minimum displacement) until maximum displacement is reached is less than 10 bar [145 psi]. This ensures optimal power utilization throughout the entire displacement range of the motor. PCOR start pressure is adjustable from 130 to 370 bar [1890 to 5370 psi]. Danfoss October L0440 C en-US

52 Controls circuit diagram nomenclature description Control operation T1**, T2** Electrohydraulic two-positioncontrol Pressure compensator override bar, [psi] 370 [5 370] PCOR start setting range 130 [1890] 12V/24V min. max. Displacement Ramp < 10 [145] P E Option T*C0: pressure compensator configuration with hydraulic rake Pressure Defeat shuttle valve ahead of the pressure compensator prevents operation in the deceleration direction (when motor is running in pump mode). This is designed to prevent rapid or uncontrolled deceleration while the vehicle/machine is slowing down. Pressure compensator override with brake pressure defeat is mainly used in systems with pumps having electric or hydraulic proportional controls or automotive controls. The shuttle valve must be controlled by a 2-line external signal, based on direction of motor rotation, see the following table: Motor rotation High pressure port Control pressure on port * PCOR function C X no C X yes CC X yes CC X no * Differencial control pressure between port X/X: p min = 0.5 bar [7 psi] p max = 50 bar [725 psi] Option T*C2: pressure compensator configuration without rake Pressure Defeat Pressure compensator functions when the motor is running in motor mode as well as in pump (deceleration) mode. Configuration option High pressure port PCOR function T*C2 and yes T1C2, T2C2 solenoid connectors Configuration Voltage / Electric power Connector (Supplied) T1C2 T2C2 12 V DC / V DC / 14.7 Solenoid plug face for DIN Mating connector No.: K09129 Id. No.: P Not all control options are shown in this Technical Information. Contact your Danfoss representative for special control functions. 52 Danfoss October L0440 C en-US0401

53 Controls circuit diagram nomenclature description Options EP**, EQ** electrohydraulic proportional control for 51 (all frame sizes) Circuit diagram motor with electrohydraulic proportional control EP**, EQ** L2 M3 N M1 T4 max. disp. n T5 U7 U6 T5 U7 U6 T2 T3 T6 T1 T7 T8 M5 X X M2 ITH RKE PRESSURE DEFET ITHOUT RKE PRESSURE DEFET L1 M7 X1 M8 P E Ports:, = Main pressure lines L1, L2 = Drain lines M1, M2 = Gauge port for and M3, = Gauge port servo pressure M5 = Gauge port servo supply pressure internal M7, M8 = Gauge port control pressure internal X1 = Port for control supply pressure external X, X = Control pressure ports, PD T1, T2, T3,T4, T5, T6,T7, T8, U6, U7 = Optional orifices N = Speed sensor Displacement can be changed under load in response to an electrical signal between maximum displacement and minimum displacement and vice versa. Control start = maximum displacement Control end = minimum displacement Control supply pressure (port X1) p min = 20 bar [290 psi] p max allowable = 70 bar [1015 psi] Danfoss October L0440 C en-US

54 Controls circuit diagram nomenclature description Control operation EP**, EQ** Pressure compensator override Proportional control High pressure Dp bar [psi] [5370] [1890] PCOR start setting range Ramp < 10 bar [145 psi] min max Displacement Ramp Control start setting range J K Current m Control start version P E Control setting options Type Start current (adjustable) * Standard setting: control start J J K K * Max. current = 250 m 15 to 50 m 30 = 30 m 50 to 85 m 70 = 70 m ** from max. to min. displacement; full stroke current. Ramp ** 70 m 95 m 70 m 95 m Coil wiring Single Coil resistance = 26 Ω Connectors MS Connector MS3102C-14S-2P (Supplied Connector) Mating Connector No.: K08106 Id.-No.: D C P E Packard eather-pack 4 pin (Supplied Connector) Mating Connector No.: K03384 Id.-No.: C D P E iring (maximum to minimum displacement) Coil wiring Positive voltage on pin Ground on pin Single coil Single coil (alt.) D C Pressure Compensator Override (PCOR) The control can be overridden by PCOR using high loop pressure. hen the PCOR activates, the motor displacement increases to maximum. Pressure ramp from PCOR start pressure (with motor at minimum displacement) until maximum displacement is reached is less than 10 bar [145 psi]. This ensures optimal power utilization throughout the entire displacement range of the motor. PCOR start pressure is adjustable from 130 to 370 bar [1890 to 5370 psi]. 54 Danfoss October L0440 C en-US0401

55 Controls circuit diagram nomenclature description Configuration option PCOR at port PD function EP1/EQ1 and with EP2/EQ2 and without Options EP1, EQ1: pressure compensator configuration with rake Pressure Defeat shuttle valve ahead of the pressure compensator prevents operation in the deceleration direction (when motor is running in pump mode). This is designed to prevent rapid or uncontrolled deceleration while the vehicle/machine is slowing down. Pressure compensator override with brake pressure defeat is mainly used in systems with pumps having electric or hydraulic proportional controls or automotive controls. The shuttle valve must be controlled by a 2-line external signal, based on direction of motor rotation, see the following table: Pressure compensator operation Motor rotation High pressure port Control pressure on port * PCOR function C X no C X yes CC X yes CC X no * Differencial control pressure between port X/X: p min = 0.5 bar [7 psi] p max = 50 bar [725 psi] Options EP2, EQ2: pressure compensator configuration without rake Pressure Defeat The pressure compensator override functions when the motor is running in motor mode as well as in pump (deceleration) mode. Not all control options are shown in this Technical Information. Contact your Danfoss representative for special control functions. Danfoss October L0440 C en-US

56 Controls circuit diagram nomenclature description Options L11, L21, L71 electrohydraulic proportional control for 51 (all frame sizes) Circuit diagram motor with electrohydraulic propor. control L11, L21, L71 L2 M3 N max. disp. n M1 T2 T3 T1 T7 T8 M5 Ports: L1 P E M2, = Main pressure lines L1, L2 = Drain lines M1, M2 = Gauge port for and M3, = Gauge port servo pressure M5 = Gauge port servo supply pressure internal T1, T2, T3,T7, T8 = Optional orifices N = Speed sensor Displacement can be changed electrohydraulically under load in response to an electrical signal from minimum displacement to maximum displacement and vice versa. The displacement changes proportional to the electrical signal. The electrical signal must be a pulse-width modulated (PM) signal, (f = Hz). Control start = maximum displacement Control end = minimum displacement Control operation L1**, L2**, L7** Electrohydraulic proportional control Control current (m) L7** L8** Control current (m) 0 20% min Displacement 0 100% max P E 56 Danfoss October L0440 C en-US0401

57 Controls circuit diagram nomenclature description L11, L21, L71 solenoid connectors Solenoid plug face DIN (Supplied) MP Junior Timer two-pin (Supplied) P Mating connector No.: K09129 Id. No.: P Mating connector No.: K19815 Id. No.: Solenoid data Configuration Voltage Nominal resistance 20 C L11 L71 Control current Start End Max. 12 V DC 5.7 Ω 440 m 1290 m 1500 m Connector DIN MP Junior Timer L21 24 V DC 21.3 Ω 220 m 645 m 750 m DIN Not all control options are shown in this Technical Information. Contact your Danfoss representative for special control functions. Danfoss October L0440 C en-US

58 Controls circuit diagram nomenclature description Options D7M1, D8M1 electrohydraulic proportional control with PCOR and hydraulic PD for 51 (all frame sizes) Circuit diagram motor with EH prop. control D7M1, D8M1 L2 M3 N X X M1 T4 max. disp. n U7 T6 T2 T3 T1 T7 T8 (M5) X3 M7 M2 L1 P E Ports:, = Main pressure lines L1, L2 = Drain lines M1, M2 = Gauge port for and M3, = Gauge port servo pressure X3 (M5) = Servo pressure supply M7 = Gauge port control pressure X, X = Control pressure ports, hydraulic PD T1, T2, T3,T4, T6,T7, T8, U7 = Optional orifices N = Speed sensor Displacement can be changed electrohydraulically under load in response to an electrical signal from minimum displacement to maximum displacement and vice versa. The displacement changes proportional to the electrical signal. The electrical signal must be a pulse-width modulated (PM) signal, (f = Hz). Solenoid not energized = maximum displacement Solenoid energized = minimum displacement Servo pressure supply = external pressure at port X3 Min. pressure = 25 bar [360 psi] Max. pressure = 50 bar [725 psi] Pressure Compensator Override (PCOR) The control can be overridden by PCOR using high loop pressure. hen the PCOR activates, the motor displacement increases to maximum. Pressure ramp from PCOR start pressure (with motor at minimum displacement) until maximum displacement is reached is less than 10 bar [145 psi]. This ensures optimal power utilization throughout the entire displacement range of the motor. PCOR start pressure is adjustable from 130 to 370 bar [1890 to 5370 psi]. 58 Danfoss October L0440 C en-US0401

59 Controls circuit diagram nomenclature description Control operation D7M1, D8M1 Pressure compensator override 370 bar [5370 psi] 130 bar [1890 psi] PCOR start setting range Ramp < 10 bar [145 psi] min max Displacement Electrohydr. prop. control Ramp (ratio 5:1) D8M1 D7M end-current start-current Control current (m) P E Options D7M1, D8M1: pressure compensator configuration with hydraulic rake Pressure Defeat shuttle valve ahead of the pressure compensator prevents operation in the deceleration direction (when motor is running in pump mode). This is designed to prevent rapid or uncontrolled deceleration while the vehicle/machine is slowing down. Pressure compensator override with brake pressure defeat is mainly used in systems with pumps having electric or hydraulic proportional controls or automotive controls. The shuttle valve must be controlled by a 2-line external signal, based on direction of motor rotation, see the following table: Motor rotation High pressure port Control pressure on port * PCOR function C X no C X yes CC X yes CC X no * Differencial control pressure between port X/X: p min = 0.5 bar [7 psi] p max = 50 bar [725 psi] D7M1, D8M1 solenoid connector Solenoid connector Plug face DIN (Supplied) Mating connector No.: K09129 Id. No.: P Configuration Voltage Nominal resistance 20 C Control current Start End Max. Connector D7M1 12 V DC 5.7 Ω 640 m 1188 m 1500 m MP Junior Timer D8M1 24 V DC 21.2 Ω 320 m 594 m 750 m two-pin Not all control options are shown in this Technical Information. Contact your Danfoss representative for special control functions. Danfoss October L0440 C en-US

60 Controls circuit diagram nomenclature description Options HS** hydraulic proportional control for 51 (all frame sizes) Circuit diagram motor with hydraulic proportional control HS** L2 M3 N M1 T4 max. disp. n T5 U7 U6 T5 U7 U6 T2 T3 T6 T1 T7 T8 M5 X X M2 with rake pressure defeat without rake pressure defeat L1 X1 M7 P E, = Main pressure lines M7 = Gauge port control pressure L1, L2 = Drain lines X1 = Port for control supply pressure external M1, M2 = Gauge port for and X, X = Control pressure ports, PD M3, = Gauge port servo pressure T1, T2, T3,T4, T5, T6,T7, T8, U6, U7 = Optional orifices M5 = Gauge port servo supply pressure N = Speed sensor Displacement can be changed in response to a hydraulic signal under load between maximum displacement and minimum displacement and vice versa. Control start = maximum displacement Control end = minimum displacement Control pressure (Port X1) External = absolute pressure Control start setting range (pressure above case pressure) p start P max allowable 3 to 5 bar [44 to 73 psi] 5 to 12 bar [73 to 175 psi] 12 to 30 bar [175 to 435 psi] control start pressure + 50 bar [725 psi] Control ramp From 100% to 20% displacement From 100% to 20% displacement 7 bar [102 psi] 14 bar [203 psi] Pressure Compensator OverRide (PCOR) The control can be overridden by PCOR using high loop pressure. hen the PCOR activates, the motor displacement increases to maximum. Pressure ramp from PCOR start pressure (with motor at minimum displacement) until maximum displacement is reached is less than 10 bar [145 psi]. This ensures optimal 60 Danfoss October L0440 C en-US0401

61 Controls circuit diagram nomenclature description power utilization throughout the entire displacement range of the motor. PCOR start pressure is adjustable from 130 to 370 bar [1890 to 5370 psi]. Control Operation HS** Pressure compensator override High pressure D p bar [psi] [5370] [1890] PCOR start setting range Ramp < 10 bar [145 psi] min max Displacement Control start setting range Ramp Proportional control C 5 [73] 12 [175] 30 [435] 3 [44] 5 [73] 12 [175] Control pressure D bar [psi] Control start version P E Configuration PCOR at port PD function HS1 and with HS2 and without Option HS1: pressure compensator configuration with rake Pressure Defeat shuttle valve ahead of the pressure compensator prevents operation in the deceleration direction (when motor is running in pump mode). This is designed to prevent rapid or uncontrolled deceleration while the vehicle/machine is slowing down. Pressure compensator override with brake pressure defeat is mainly used in systems with pumps having electric or hydraulic proportional controls or automotive controls. The shuttle valve must be controlled by a 2-line external signal, based on direction of motor rotation, see the following table: Motor rotation High pressure port Control pressure on port * PCOR function C X no C X yes CC X yes CC X no * Differencial control pressure between port X/X: p min = 0.5 bar [7 psi] p max = 50 bar [725 psi] Option HS2: pressure compensator configuration without rake Pressure Defeat The pressure compensator override functions when the motor is running in motor mode as well as in pump (deceleration) mode. Not all control options are shown in this Technical Information. Contact your Danfoss representative for special control functions. Danfoss October L0440 C en-US

62 Controls circuit diagram nomenclature description Option H1 hydraulic proportional control for 51 (all frame sizes) Circuit diagram motor with hydraulic propor. control H1 L2 M3 N M1 max. disp. n T2 T3 T1 T7 T8 M5 M2 L1 X1 M7 P E, = Main pressure lines L1, L2 = Drain lines M1, M2 = Gauge port for and M3, = Gauge port servo pressure M5 = Gauge port servo supply pressure internal M7 = Gauge port control pressure X1 = Control pressure port T1, T2, T3, T7, T8 = Optional orifices N = Speed sensor Displacement can be changed in response to a hydraulic signal under load between maximum displacement and minimum displacement and vice versa. Control start = maximum displacement Control end = minimum displacement Control pressure on port X1 External = absolute pressure 62 Danfoss October L0440 C en-US0401

63 Controls circuit diagram nomenclature description Control Operation H1 Proportional control C Control start Setting range 5 [73] 3 [44] 12 [175] 5 [73] 30 [435] 12 [175] Control pressure D bar [psi] min Displacement max Ramp Control start version P E Control start setting range (pressure above case pressure) p start 3 to 5 bar [44 to 73 psi] 5 to 12 bar [73 to 175 psi] 12 to 30 bar [175 to 435 psi] P max allowable control start pressure + 50 bar [725 psi] Control ramp From 100% to 20% displacement From 100% to 20% displacement 7 bar [102 psi] 14 bar [203 psi] Not all control options are shown in this Technical Information. Contact your Danfoss representative for special control functions. Danfoss October L0440 C en-US

64 General dimensions frame size 060 SE flange design per ISO 3019/1 51V060-1 Two Position Control, N1NN (Side port on top, xial port below) 88.5 [3.48] X [8.45] Loop flushing shuttle valve Charge pressure relief valve Gauge port System pressure max. angle Case drain L UN-2 [1 1 /16-12UN-2] 23.8 [0.94] [8.21] 74.5 [2.93] 74.5 [2.93] [2.00] 40.0 [1.57] [3.87] 70.0 [2.76] Gauge port M1 System pressure UNF-2 [ 7 /8-14UNF-2] 70.0 [2.76] Gauge port M2 System pressure UNF-2 [ 7 /8-14UNF-2] lternate position Case drain L UN-2 [1 1 /16-12UN-2] 88.5 [3.48] max. [10.24 max.] min. angle stop adjustment Split flange boss + DN 19 typ II 40 MPa series per ISO 6162 [SE 0.75] 4 thread: UNC-2 [ 3 /8-16UNC-2] 19 [0.75] min. X [4.77] [9.53] 23.8 [0.94] Gauge port System pressure max. angle 50.8 [2.00] [4.05] 49.0 [1.94] Gauge ports M1 + M2 System pressure + Split flange boss DN 19 typ II 40 MPa series per ISO 6162 [SE 0.75] 4 thread: UNC-2 [ 3 /8-16UNC-2] 19 [0.75] min [1.85] 73.0 [2.87] 47.0 [1.85] 73.0 [2.87] Split flange boss DN 19 typ II 40 MPa series per ISO 6162 [SE 0.75] 4 thread: UNC-2 [ 3 /8-16UNC-2] 19 [0.75] min. P E 64 Danfoss October L0440 C en-US0401

65 General dimensions frame size V060 Proportional and Two Position Control, H1 (Side port on top, xial port below) 74.5 [2.93] 74.5 [2.93] 88.5 [3.48] Case drain L UN-2 [1 1 /16-12UN-2] L1 L2 X 217 [8.53] Loop flushing shuttle valve Charge pressure relief valve [2.00] 19 M [0.94] Gauge port M3 Servo pressure min. angle Control start adjustment M1 M5 41 [1.60] 172 [6.77] 96 [3.77] 98 max. [3.87] max. 66 [2.60] Gauge port M1 System pressure 66 [2.60] Gauge port M5 Servo pressure supply Gauge port Servo pressure max. angle Gauge port M2 System pressure Supply pressure Shuttle valve lternate position Case drain L UN-2 [1 1 /16-12UN-2] 88.5 [3.48] min. angle stop adjustment Gauge port M7 Control pressure [11.56] U Control mounting surface Split flange boss + DN 19 typ II 40 MPa series per ISO 6162 [SE 0.75] 4 thread: UNC-2 [ 3 /8-16UNC-2] 19 [0.75] min. U M7 X1 Shaft centerline 49.0 [1.93] Control pressure port X [4.77] X [10.35] Gauge port M1 + M2 System pressure [2.00] 70.0 [2.76] 45.0 [1.77] M [2.76] 45.0 [1.77] [0.94] Gauge port Servo pressure max. angle [4.05] L1 L [2.22] Split flange boss DN 19 typ II 40 MPa series per ISO 6162 [SE 0.75] 4 thread: UNC-2 [ 3 /8-16UNC-2] 19 [0.75] min. M5 Supply pressure Shuttle valve Split flange boss DN 19 typ II 40 MPa series per ISO 6162 [SE 0.75] 4 thread: UNC-2 [ 3 /8-16UNC-2] 19 [0.75] min. P E Danfoss October L0440 C en-US

66 General dimensions frame size 060 Shaft options 51V060-1 and 51V060 Mounting flange surface flange (SE "C") per ISO 3019/1 O-ring 3.00x FPM [0.12x4.57] X E F Series 51-1 with N1NN-control Control pressure port X1(M3) Servo pressure min. angle Speed pick-up Series 51 with H1-control 4x Ø14.3 ± 0.2 [0.56 ± 0.01] Ø ± [4.999 ± 0.001] Ø103.4 [4.07] Ø ØG R3.0 [0.12] H ØD Ø44.45 [1.75] Ø80.0 [3.15] ± 1.6 [5.75 ± 0.06] ± 0.2 [2.25 ± 0.01] ± 0.2 [2.25 ± 0.01] Ø19.5 [0.77] other side max screw head space [0.49] C Coupling may not protrude beyond this surface 18.0 [0.71] ± 0.2 [2.25 ± 0.01] ± 1.6 [5.75 ± 0.06] ± 0.2 [2.25 ± 0.01] P E Shaft spline data - mm [in] Shaft option S1 C6 Number of teeth Pitch 12/24 16/32 Pitch Ø [1.167] [1.312] Ø [1.23] [1.36] Ø D 25.8 [1.02] 30.0 [1.18] Pressure angle [1.476] C 47.5±0.5 [1.87] E 50.3±1.2 [1.98] F 55.5±0.7 [2.19] H 28.0 [1.1] Spline Ø G Flow into port results in C rotation of output shaft. Flow into port results in CC rotation of output shaft. NSI , class 5, flat root side fit UNC-2 [7/16-14UNC-2]; allowed torque in thread max. 91 N m [805 lbf in] Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. 66 Danfoss October L0440 C en-US0401

67 General dimensions frame size 060 DIN flange design per ISO 3019/2 51D060-1 two position control, N1NN (Side port on top, xial port below) 59.0 [2.32] Case drain L UN-2 [1 1 /16-12UN-2] X [7.49] 23.8 [0.94] Loop flushing shuttle valve Charge pressure relief valve [8.21] Gauge port System pressure max. angle 77.5 [3.05] 75.5 [2.97] [2.00] 40.0 [1.57] 98.9 [3.89] 70.0 [2.76] Gauge port M1 System pressure UNF-2 [ 7 /8-14UNF-2] 70.0 [2.76] Gauge port M2 System pressure UNF-2 [ 7 /8-14UNF-2] lternate position Case drain L UN-2 [1 1 /16-12UN-2] 90.0 [3.54] max. [9.22 max.] min. angle stop adjustment Split flange boss + DN 19 typ II 40 MPa series per ISO 6162 [SE 0.75] 4 thread: UNC-2 [ 3 /8-16UNC-2] 19 [0.75] min. X 87.0 [3.41] [8.57] 23.8 [0.94] Gauge port System pressure max. angle 50.8 [2.00] 94.0 [3.70] 49.0 [1.94] Gauge ports M1 + M2 System pressure + Split flange boss DN 19 typ II 40 MPa series per ISO 6162 [SE 0.75] 4 thread: UNC-2 [ 3 /8-16UNC-2] 19 [0.75] min [1.85] 73.0 [2.87] 47.0 [1.85] 73.0 [2.87] Split flange boss DN 19 typ II 40 MPa series per ISO 6162 [SE 0.75] 4 thread: UNC-2 [ 3 /8-16UNC-2] 19 [0.75] min. P E Danfoss October L0440 C en-US

68 General dimensions frame size D060 proportional and two position control, H1 (Side port on top, xial port below) 77.5 [3.05] 59.0 [2.32] Case drain L UN-2 [1 1 /16-12UN-2] L1 X [7.56] Loop flushing shuttle valve Charge pressure relief valve M3 Gauge port M3 Servo pressure min. angle Control start adjustment M [6.77] 66.0 [2.60] Gauge port M1 System pressure 66.0 [2.60] Gauge port Servo pressure max. angle Supply pressure Shuttle valve 75.5 [2.97] [2.00] [0.94] M [1.60] 96.0 [3.77] 99.0 [3.89] Gauge port M5 Servo pressure supply Gauge port M2 System pressure lternate position Case drain L UN-2 [1 1 /16-12UN-2] 90.0 [3.54] L2 min. angle stop adjustment Gauge port M7 Control pressure [10.64] U Control mounting surface Split flange boss + DN 19 typ II 40 MPa series per ISO 6162 [SE 0.75] 4 thread: UNC-2 [ 3 /8-16UNC-2] 19 [0.75] min. U M7 X1 Shaft centerline 49.0 [1.93] Control pressure port X1 X [9.39] Gauge port M1 + M2 System pressure [2.76] 45.0 [1.77] 70.0 [2.76] 45.0 [1.77] M3 M5 Gauge port Servo pressure max. angle 87.0 [3.45] [2.00] [0.94] 94.0 [3.70] L [2.22] Supply pressure Shuttle valve L2 Split flange boss DN 19 typ II 40 MPa series per ISO 6162 [SE 0.75] 4 thread: UNC-2 [ 3 /8-16UNC-2] 19 [0.75] min. Split flange boss DN 19 typ II 40 MPa series per ISO 6162 [SE 0.75] 4 thread: UNC-2 [ 3 /8-16UNC-2] 19 [0.75] min. P E 68 Danfoss October L0440 C en-US0401

69 General dimensions frame size 060 Shaft options 51D060-1 and 51D060 X Mounting flange surface flange HL per ISO 3019/2 E F 6.0 [0.24] Series 51-1with N1NN-control Control pressure port X1(M3) Servo pressure min. angle Speed pick-up Series 51with H1-control Ø14.0 ± 0.2 [0.55 ± 0.01] Ø [ ] Ø85.0 [3.35] Ø ØG R1.6 [0.06] H ØD Ø44.45 [1.75] ± 1.6 [5.91 ± 0.06] [2.23] [2.23] Ø110.0 [4.33] C Coupling may not protrude beyond this surface 9.0 [0.35] 32.5 [1.28] 17.0 [0.67] [2.23] ± 1.6 [5.91 ± 0.06] [2.23] Ø19.5 [0.77] other side max. screw head space P E Shaft spline data - mm [in] Shaft option D1 D2 Number of teeth Spline 30x2x30x14x9g, side fit DIN x2x30x16x9g side fit DIN 5480 Pitch Ø 28.0 [1.102] 32.0 [1.260] Ø 29.6 [1.17] 34.6 [1.36] 27.0 [1.06] 32.0 [1.260] C 35.0±0.5 [1.38] 40.0±0.5 [1.58] Ø D 25.0 [0.98] 30.0 [1.18] E 37.5±1.1 [1.48] 42.5±1.1 [1.67] F 67.5±0.6 [2.66] 72.5±0.6 [2.85] H 25.0 [0.98] 25.0 [0.98] Ø G Flow into port results in C rotation of output shaft. Flow into port results in CC rotation of output shaft. M10x1.5 allowed torque in thread max. 67 N m [593 lbf in] Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. Danfoss October L0440 C en-US

70 General dimensions frame size 060 Cartridge flange 51C060-1 two-position control, N1NN (Side port on top, xial port below) Case drain L UN-2 [1 1 /16-12UN-2] X [5.13] 23.8 [0.94] Loop flushing shuttle valve Charge pressure relief valve Gauge port System pressure max. angle 39.0 [1.54] 39.0 [1.54] L [2.00] 40.0 [1.57] [8.21] 99.4 [3.91] 70 [2.76] Gauge port M1 System pressure UNF-2 [ 7 /8-14UNF-2] 70 [2.76] Gauge port M2 System pressure UNF-2 [ 7 /8-14UNF-2] lternate position Case drain L UN-2 [1 1 /16-12UN-2] 50.0 [1.97] min. angle stop adjustment max. [6.86 max.] Speed pick-up Split flange boss + DN 19 typ II 40 MPa series per ISO 6162 [SE 0.75] 4 thread: UNC-2 [ 3 /8-16UNC-2] 19 [0.75] min. X [6.21] 23.8 [0.94] Gauge port System pressure max. angle 50.8 [2.00] L [1.94] Gauge port M1 + M2 System pressure + Split flange boss DN 19 typ II 40 MPa series per ISO 6162 [SE 0.75] 4 thread: UNC-2 [ 3 /8-16UNC-2] 19 [0.75] min [1.85] 73.0 [2.87] 47.0 [1.85] 73.0 [2.87] Split flange boss DN 19 typ II 40 MPa series per ISO 6162 [SE 0.75] 4 thread: UNC-2 [ 3 /8-16UNC-2] 19 [0.75] min. P E 70 Danfoss October L0440 C en-US0401

71 General dimensions frame size C060 proportional and two-position control, H1 (Side port on top, xial port below) 39.0 [1.54] 39.0 [1.54] Case drain port L UN-2 [1 1 /16-12UN-2] X [5.21] Loop Flushing shuttle valve Charge pressure relief valve L1 N [2.00] L2 M [0.94] Gauge port M3 Servo pressure min. angle Control Start djustment M1 M [1.60] [6.77] 96.0 [3.77] 66.0 [2.60] Gauge port M1 System pressure 99.0 [3.89] 66.0 [2.60] Gauge port M5 Servo pressure supply Gauge port M2 System pressure Gauge port Servo pressure max. angle Supply pressure Shuttle valve lternate position Case drain port L UN-2 [1 1 /16-12UN-2] 50.0 [1.97] min. angle stop adjustment Gauge port M7 Control pressure [8.24] U Control mounting surface Split flange boss + DN 19 typ II 40 MPa series per ISO 6162 [SE 0.75] 4 thread: UNC-2 [ 3 /8-16UNC-2] 19 [0.75] min. U M7 X1 Shaft centerline 49.0 [1.93] Control pressure port X1 X Gauge port M1 + M2 System pressure [7.03] 70.0 [2.76 ] 45.0 [1.77] M [2.76 ] 45.0 [1.77] Gauge port Servo pressure max. angle [0.94] L [2.22] [2.00] M5 Supply pressure Shuttle valve N L2 Split flange boss DN 19 typ II 40 MPa series per ISO 6162 [SE 0.75] 4 thread: UNC-2 [ 3 /8-16UNC-2] 19 [0.75] min. Split flange boss DN 19 typ II 40 MPa series per ISO 6162 [SE 0.75] 4 thread: UNC-2 [ 3 /8-16UNC-2] 19 [0.75] min. P E Danfoss October L0440 C en-US

72 General dimensions frame size 060 Shaft options 51C060-1 and 51C060 X Mounting flange surface cartridge flange E F 56.0 [2.20] 20.0 [0.79] O-ring 3.00x FPM [0.12x5.90] Case drain L UN-2 [1 1 /16-12UN-2] Series 51-1 with N1NN-control Control pressure port X1(M3) Servo pressure min. angle Ø18.0 ± 0.3 [0.71 ± 0.01] Series 51 with H1-control Ø30.0 [1.18] other side max screen head space Ø [ ] Ø134.0 [5.28] Ø106.0 [4.17] Ø90.0 [3.54] Ø R1.6 [0.06] ØD Ø44.45 [1.75] M [2.93] ØG H 79.5 [3.13] Clearance min. Ø242.0 [9.53] C Coupling may not protrude beyond this surface 91.8 [3.61] 12.6 [0.50] 20.0 [0.79] lternate position Case drain L UN-2 [1 1 /16-12UN-2] [3.94] max. [9.33] max [3.94] P E Shaft spline data - mm [in] Shaft option D1 D2 Number of teeth Spline 30x2x30x14x9g, side fit DIN x2x30x16x9g side fit DIN 5480 Pitch Ø 28.0 [1.102] 32.0 [1.26] Ø 29.6 [1.17] 34.6 [1.36] 27.0 [1.06] 32.0 [1.26] C 35.0±0.5 [1.38] 40.0±0.5 [1.58] Ø D 25.0 [0.98] 30.0 [1.18] E 36.8±1.4 [1.45] 41.8±1.4 [1.65] F 127.2±0.6 [5.0] 132.2±0.6 [5.21] H 25.0 [0.98] 25.0 [0.98] Ø G Flow into port results in C rotation of output shaft. Flow into port results in CC rotation of output shaft. M10x1.5 allowed torque in thread max. 67 N m [593 lbf in] Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. 72 Danfoss October L0440 C en-US0401

73 General dimensions frame size 080 SE flange design per ISO 3019/1 51V080-1 Two Position Control, N1NN (Side port on top, xial port below) X Loop flushing shuttle valve [9.27] Charge pressure relief valve 94.0 [3.69] Gauge port System pressure max. angle Case drain L UN-2 [1 1 /16-12UN-2] [1.09] [8.62] 85.5 [3.37] 80.0 [3.15] [2.25] 45.0 [1.76] [4.20] 76.0 [2.99] Gauge port M1 System pressure UNF-2 [1 1 /16-12UNF-2] 76.0 [2.99] Gauge port M2 System pressure UNF-2 [1 1 /16-12UNF-2] lternate position Case drain L UN-2 [1 1 /16-12UN-2] 93.7 [3.69] max. [10.95 max.] min. angle stop adjustment Split flange boss + DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. X [5.26] [10.28] [1.09] [2.25] Gauge port System pressure max. angle [4.58] 53.0 [2.10] Gauge ports M1 + M2 System pressure + Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min [1.97] 79.0 [3.11] 50.0 [1.97] 79.0 [3.11] Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. P E Danfoss October L0440 C en-US

74 General dimensions frame size V080 Proportional and Two-Position Control, H1 (Side port on top, xial port below) 85.5 [3.37] 80.0 [3.15] [9.27] Loop flushing shuttle valve Charge pressure relief valve 94.0 [3.69] Case drain L UN-2 [1 1 /16-12UN-2] lternate position Case drain L UN-2 [1 1 /16-12UN-2] 93.7 [3.69] X min. angle stop adjustment [2.25] [12.52] M [1.09] Gauge port M7 Control pressure Gauge port M3 Servo pressure min. angle Control start adjustment M1 M5 U 45.0 [1.76] [7.19] [4.00] 74.0 [2.91] Gauge port M1 System pressure [4.20] 74.0 [2.91] Gauge port M5 Servo pressure supply Control Mounting Surface Split flange boss + DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. Gauge port M2 System pressure Gauge port Servo pressure max. angle U M7 X1 Shaft centerline 49.0 [1.93] Supply pressure Shuttle valve Gauge port M1 + M2 System pressure [2.01] 51.0 [2.01] 81.0 [2.01] 51.0 [2.01] [11.09] [2.25] M3 M [1.09] 61.0 [2.39] Control pressure port X1 X Gauge port Servo pressure max. angle [4.58] [5.26] Supply pressure Shuttle valve Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. P E 74 Danfoss October L0440 C en-US0401

75 General dimensions frame size 080 Shaft Options 51V080-1 and 51V080 X Mounting flange surface flange (SE "C") per ISO 3019/1 F E O-ring 3.00x FPM [0.12x4.57] Series 51-1 with N1NN-control Control pressure port X1(M3) Servo pressure min. angle Speed pick-up Series 51 with H1-control Ø ± [4.999 ± 0.001] Ø ØG R3.0 [0.12] H ØD Ø44.0 [1.75] Ø80.0 [3.15] ± 1.6 [5.91 ± 0.06] [2.25] [2.25] 4x Ø14.5 ± 0.2 [0.57 ± 0.01] Ø19.5 [0.77] other side max. screw head space 12.0 [0.49] C Coupling may not protrude beyond this surface 20.0 [0.79] [2.25] [2.25] ± 1.6 [5.91 ± 0.06] P E Shaft spline data - mm [in] Shaft option S1 C7 Number of teeth Pitch 12/24 16/32 Pitch Ø [1.167] [1.438] Ø [1.23] [1.481] Ø D 25.8 [1.02] 32.0 [1.26] Pressure angle [1.476] C 47.5±0.5 [1.87] E 49.5±1.1 [1.95] F 55.5±0.7 [2.19] H 28.0 [1.1] Spline Ø G Flow into port results in C rotation of output shaft. Flow into port results in CC rotation of output shaft. NSI , class 5, flat root side fit UNC-2 [7/16-14UNC-2]; allowed torque in thread max. 91 N m [805 lbf in] Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. Danfoss October L0440 C en-US

76 General dimensions frame size 080 DIN flange design per ISO 3019/2 51D080-1 two position control, N1NN (Side port on top, xial port below) X Loop flushing shuttle valve 70.0 [2.75] [8.33] Charge pressure relief valve Gauge port System pressure max. angle Case drain L UN-2 [1 1 /16-12UN-2] [1.09] [8.62] 87.5 [3.44] 76.5 [3.01] [2.25] 45.0 [1.76] [4.20] 76.0 [2.99] Gauge port M1 System pressure UNF-2 [1 1 /16-12UNF-2] 76.0 [2.99] Gauge port M2 System pressure UNF-2 [1 1 /16-12UNF-2] lternate position Case drain L UN-2 [1 1 /16-12UN-2] [4.32] max. [9.95 max.] min. angle stop adjustment Split flange boss + DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min [3.80] [9.33] X [1.09] [2.25] Gauge port System pressure max. angle [4.40] 53.0 [2.10] Gauge ports M1 + M2 System pressure + Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min [1.97] 79.0 [3.11] 50.0 [1.97] 79.0 [3.11] Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. P E 76 Danfoss October L0440 C en-US0401

77 General dimensions frame size D080 Proportional and two position control, H1 (Side port on top, xial port below) 87.5 [3.44] 76.5 [3.01] Charge pressure relief valve [2.62] Case drain L UN-2 [1 1 /16-12UN-2] X [8.33] Loop flushing shuttle valve [2.25] M [1.09] Gauge port M3 Servo pressure min. angle Control start adjustment M1 M [1.76] [7.19] [4.00] [4.20] 74.0 [2.91] Gauge port M1 System pressure Gauge port M5 Servo pressure supply 74.0 [2.91] Gauge port M2 System pressure Gauge port Servo pressure max. angle Supply pressure Shuttle valve lternate position Case drain L UN-2 [1 1 /16-12UN-2] min. angle stop adjustment [4.32] [11.58] Gauge port M7 Control pressure U Control mounting surface Split flange boss + DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. U M7 X1 Shaft centerline 49.0 [1.93] Control pressure port X1 X [10.15] Gauge port M1 + M2 System pressure [3.19] 51 [2.01] M [3.19] 51 [2.01] Gauge port Servo pressure max. angle 96.0 [3.80] [2.25] [1.09] [4.40] 61.0 [2.39] Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. M5 Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. Supply pressure Shuttle valve P E Danfoss October L0440 C en-US

78 General dimensions frame size 080 Shaft Options 51D080-1 and 51D080 E X Mounting flange surface flange HL per ISO 3019/2 F Series 51-1 with N1NN-control Control pressure port X1(M3) Servo pressure min. angle Speed pick-up Series 51 with H1-control Ø [ ] Ø R1.6 [0.06] ØD 45.0 [1.75] ± 1.6 [6.61 ± 0.06] 63.6 [2.5] Ø110.0 [4.33] 4x Ø14.0 ± 0.2 [0.55 ± 0.01] ØG H 63.6 [2.5] C Coupling may not protrude beyond this surface 10.0 [0.39] 32.1 [1.26] 19.0 [0.75] 63.6 [2.5] ± 1.6 [6.61 ± 0.06] 63.6 [2.5] Ø19.5 [0.77] other side max. screw head space P E Shaft spline data - mm [in] Shaft option D2 D3 Number of teeth Spline 35x2x30x16x9g side fit DIN x2x30x18x9g side fit DIN 5480 Pitch Ø 32.0 [1.260] 36.0 [1.417] Ø 34.6 [1.36] 39.6 [1.56] 32.0 [1.26] 37.0 [1.46] C 40.0±0.5 [1.58] 45.0±0.5 [1.77] Ø D 30.0 [1.18] 35.0 [1.38] E 42.5±1.1 [1.67] 47.3±1.1 [1.86] F 72.5±0.6 [2.85] 85.3±0.6 [3.36] H 25.0 [0.98] 25.0 [0.98] Ø G Flow into port results in C rotation of output shaft. Flow into port results in CC rotation of output shaft. M10x1.5 allowed torque in thread max. 67 N m [593 lbf in] Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. 78 Danfoss October L0440 C en-US0401

79 General dimensions frame size 080 Cartridge flange 51C080-1 two-position control, N1NN (Side port on top, xial port below) X Loop flushing shuttle valve Case drain L UN-2 [1 1 /16-12UN-2] [5.24] [1.09] Charge pressure relief valve [8.62] Gauge port System pressure max. angle L [1.77] 45.0 [1.77] [2.25] 45.0 [1.77] [4.20] 76.0 [2.99] Gauge port M1 System pressure UNF-2 [1 1 /16-12UNF-2] 76.0 [2.99] Gauge port M2 System pressure UNF-2 [1 1 /16-12UNF-2] Speed pick-up lternate position Case drain L UN-2 [1 1 /16-12UN-2] 48.0 [1.89] min. angle stop adjustment max. [6.87 max.] Split flange boss + DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. X [6.25] [1.09] Gauge port System pressure max. angle [2.25] L [2.10] Gauge ports M1 + M2 System pressure + Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min [1.97] 79.0 [3.11] 50.0 [1.97] 79.0 [3.11] Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. P E Danfoss October L0440 C en-US

80 General dimensions frame size C080 proportional and two-position control, H1 (Side port on top, xial port below) Loop flushing shuttle valve Charge pressure relief valve Case drain L UN-2 [1 1 /16-12UN-2] 45.0 [1.77] 45.0 [1.77] 48.0 [1.98] L1 X [5.24] [2.25] M [1.09] Gauge port M3 Servo pressure min. angle M1 M5 Control start adjustment 45.0 [1.77] [7.19] [4.00] [4.20] 74.0 [2.91] Gauge port M5 Servo pressure supply 74.0 [2.91] Gauge port M1 System pressure Gauge port Servo pressure max. angle Gauge port M2 System pressure Supply pressure Shuttle valve Speed pick-up lternate position Case drain L UN-2 [1 1 /16-12UN-2] min. angle stop adjustment Gauge port M7 Control pressure [8.45] U Control mounting surface Split flange boss + DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. U M7 X1 Shaft centerline 49.0 [1.93] Control pressure port X1 X [7.07] Gauge port M1 + M2 System pressure [3.19] 51.0 [2.01] M [3.19] 51.0 [2.01] Gauge port Servo pressure max. angle L [2.39] [2.25] Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. M [1.09] Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. Supply pressure Shuttle valve P E 80 Danfoss October L0440 C en-US0401

81 General dimensions frame size 080 Shaft options 51C080-1 and 51C080 E F X Mounting flange surface cartridge flange O-ring 3.00x FPM [0.12x7.04] 70.7 [2.78] 19.2 [0.76] 45 lternate position Case drain L UN-2 [1 1 /16-12UN-2] Series 51-1 with N1NN-control Control pressure port X1(M3) Servo pressure min. angle Ø22.0 ± 0.3 [0.87 ± 0.01] Series 51with H1-control Ø30.0 [1.18] other side max. screw head space Ø [ ] Ø112.0 [4.41] Ø90.0 [3.54] Ø ØG R1.6 [0.06] 28.0 [1.10] ØD Ø44.45 [1.75] Ø108.0 [4.25] Ø143.0 [5.71] M [3.33] 84.5 [3.35] Clearance min. Ø267.5 [10.53] C Coupling may not protrude beyond this surface 81.5 [3.21] max [4.36 max] 11.2 [0.44] 20.0 [0.79] Case drain L UN-2 [1 1 /16-12UN-2] [4.41] max. [10.31 max.] [4.41] P E Shaft spline data - mm [in] Shaft option D2 D3 Number of teeth Spline 35x2x30x16x9g side fit DIN x2x30x18x9g side fit DIN 5480 Pitch Ø 32.0 [1.260] 36.0 [1.417] Ø 34.6 [1.36] 39.6 [1.56] 32.0 [1.26] 37.0 [1.46] C 40.0±0.5 [1.58] 45.0±0.5 [1.77] Ø D 30.0 [1.18] 35.0 [1.38] E 41.55±1.4 [1.64] 46.55±1.4 [1.83] F 150.4±0.6 [5.92] 155.4±0.6 [6.12] H 25.0 [0.98] 25.0 [0.98] Ø G Flow into port results in C rotation of output shaft. Flow into port results in CC rotation of output shaft. M10x1.5 allowed torque in thread max. 67 N m [593 lbf in] Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. Danfoss October L0440 C en-US

82 General dimensions frame size 110 SE flange design per ISO 3019/1 51V110-1 Two Position Control, N1NN (Side port on top, xial port below) [3.98] X [10.01] Loop flushing shuttle valve Charge pressure relief valve Gauge port System pressure max. angle Case drain L UN-2 [1 1 /16-12UN-2] [1.09] [9.16] 87.0 [3.43] 90.0 [3.54] [2.25] 48.0 [1.91] [4.53] 77.0 [3.03] Gauge port M1 System pressure UNF-2 [1 1 /16-12UNF-2] 77.0 [3.03] Gauge port M2 System pressure UNF-2 [1 1 /16-12UNF-2] lternate position Case drain L UN-2 [1 1 /16-12UN-2] [3.98] [5.63] max. [11.82 max.] min. angle stop adjustment Split flange boss + DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. X [11.05] [5.27] [1.09] Gauge port System pressure max. angle [4.74] 58.0 [2.27] Gauge ports M1 + M2 System pressure [2.25] Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min [1.97] 80.0 [3.15] 50.0 [1.97] 80.0 [3.15] Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. P E 82 Danfoss October L0440 C en-US0401

83 General dimensions frame size V110 Proportional and Two-Position Control, H1 (Side port on top, xial port below) 87.0 [3.43] 90.0 [3.54] [3.98] Case drain L UN-2 [1 1 /16-12UN-2] [10.01] Charge pressure relief valve Loop flushing shuttle valve 19 X [2.25] M [1.09] Gauge port M3 Servo pressure min. angle Control start adjustment M1 M [1.91] [7.30] [4.00] 115 max. [4.53] max [3.03] 77.0 [3.03] Gauge port M5 Servo pressure supply Gauge port M1 System pressure Gauge port Servo pressure max. angle Gauge port M2 System pressure Supply pressure Shuttle valve lternate position Case drain L UN-2 [1 1 /16-12UN-2] [3.98] [5.63] min. angle stop adjustment [13.25] Gauge port M7 Control pressure U Control mounting surface Split flange boss + DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. U M7 X1 Shaft centerline 49.0 [1.93] Control pressure port X1 X [11.8] Gauge port M1 + M2 System pressure [3.15] 50.0 [1.97] 80.0 [3.15] 50.0 [1.97] Gauge port Servo pressure max. angle [4.74] [5.27] 64.0 [2.53] [2.25] M3 M5 Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min [1.09] Supply pressure Shuttle valve Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. P E Danfoss October L0440 C en-US

84 General dimensions frame size 110 Shaft Options 51V110-1 and 51V110 X Mounting flange surface flange (SE "D") per ISO 3019/1 O-ring 3.00x FPM [0.12x5.59] F E Series 51 with H1-control Control pressure port X1(M3) Servo pressure min. angle Ø20.5 ± 0.2 [0.81 ± 0.01] Speed pick-up Series 51 with H1-control Ø ± [5.999 ± 0.001] Ø128.1 [5.04] Ø ØG R3.0 [0.12] H ØD Ø55.0 [2.17] Ø100.0 [3.94] ± 1.8 [7.87 ± 0.07] 80.8 ± 0.2 [3.18 ± 0.01] 80.8 ± 0.2 [3.18 ± 0.01] Ø30.0 [1.18] other side max. screw head space [0.49] C Coupling may not protrude beyond this surface 22.0 [0.87] 80.8 ± 0.2 [3.18 ± 0.01] ± 1.8 [7.87 ± 0.07] 80.8 ± 0.2 [3.18 ± 0.01] P E Shaft spline data - mm [in] Shaft option F1 C8 Number of teeth Pitch 8/16 16/32 Pitch Ø [1.625] [1.688] Ø [1.72] [1.73] Ø D 36.0 [1.42] [1.56] Pressure angle [2.17] C 67.0±0.5 [2.64] E 69.8±1.1 [2.75] F 75.40±0.7 [2.97] H 28.0 [1.1] Spline Ø G Flow into port results in C rotation of output shaft. Flow into port results in CC rotation of output shaft. NSI , class 5, flat root side fit UNC-2 [5/8-11UNC-2]; allowed torque in thread max. 200 N m [1770 lbf in] Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. 84 Danfoss October L0440 C en-US0401

85 General dimensions frame size 110 DIN flange design per ISO 3019/2 51D110-1 two position control, N1NN (Side port on top, xial port below) [2.72] Case drain L UN-2 [1 1 /16-12UN-2] [8.77] X Loop flushing shuttle valve Charge pressure relief valve [1.09] [9.16] Gauge port System pressure max. angle 93.5 [3.68] 88.5 [3.48] [2.25] 49.0 [1.92] [4.53] 77.0 [3.03] Gauge port M1 System pressure UNF-2 [1 1 /16-12UNF-2] 77.0 [3.03] Gauge port M2 System pressure UNF-2 [1 1 /16-12UNF-2] lternate position Case drain L UN-2 [1 1 /16-12UN-2] [4.21] max. [10.56 max.] min. angle stop adjustment Split flange boss + DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. X [4.52] [9.81] [1.09] Gauge port System pressure max. angle [2.25] [4.99] 58.0 [2.27] Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. Gauge ports M1 + M2 System pressure [1.97] 80.0 [3.15] 50.0 [1.97] 80.0 [3.15] Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. P E Danfoss October L0440 C en-US

86 General dimensions frame size D110 proportional and two position control, H1 (Side port on top, xial port below) 93.5 [3.68] 88.5 [3.48] Loop flushing shuttle valve Charge pressure relief valve [2.72] Case drain L UN-2 [1 1 /16-12UN-2] X [8.75] [2.25] M [1.09] Gauge port M3 Servo pressure min. angle Control start adjustment M1 M [1.91] [7.30] [4.06] [4.50] 77.0 [3.03] Gauge port M5 Servo pressure supply 77.0 [3.03] Gauge port M1 System pressure Gauge port Servo pressure max. angle Gauge port M2 System pressure Supply pressure Shuttle valve lternate position Case drain L UN-2 [1 1 /16-12UN-2] [4.21] min. angle stop adjustment [12.00] Gauge port M7 Control pressure U Control mounting surface Split flange boss + DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. U M7 X1 Shaft centerline 49.0 [1.93] Control pressure port X [4.35] X [10.54] Gauge port M1 + M2 System pressure [2.25] 80.0 [3.15] 50.0 [1.97] 80.0 [3.15] 50.0 [1.97] M3 M [1.09] Gauge port Servo pressure max. angle [4.94] 64.0 [2.53] Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. Supply pressure Shuttle valve P E 86 Danfoss October L0440 C en-US0401

87 General dimensions frame size 110 Shaft options 51D110-1 and 51D110 Series 51-1 with N1NN-control Control pressure port X1(M3) Servo pressure min. angle Series 51 with H1-control X Mounting flange surface flange HL per ISO 3019/2 F Speed pick-up E 13.5 [0.53] R2.5 [0.10] 70.7 [2.78] Ø18.0 ± 0.2 [0.71 ± 0.01] Ø [ ] Ø116.0 [4.57] Ø ØD Ø55.0 [2.17] ± 1.8 [7.48 ± 0.07] ØG H 70.7 [2.78] Ø30.0 [1.18] other side max. screw head space C Coupling may not protrude beyond this surface 9.0 [0.35] 40.3 [1.59] 22.0 [0.87] 70.7 [2.78] ± 1.8 [7.48 ± 0.07] 70.7 [2.78] P E Shaft spline data - mm [in] Shaft option D3 D4 Number of teeth Spline 40x2x30x18x9g side fit DIN x2x30x21x9g side fit DIN 5480 Pitch Ø 36.0 [1.417] 42.0 [1.654] Ø 39.6 [1.56] 44.6 [1.76] 37.0 [1.46] 42.0 [1.65] C 45.0±0.5 [1.77] 50.0±0.5 [1.97] Ø D 35.0 [1.38] 40.0 [1.57] E 47.3±1.1 [1.86] 52.3±1.1 [2.06] F 85.3±0.6 [3.36] 90.3±0.6 [3.56] H 30.0 [1.18] 30.0 [1.18] Ø G Flow into port results in C rotation of output shaft. Flow into port results in CC rotation of output shaft. M12x1.75 allowed torque in thread max. 115 N m [1018 lbf in] Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. Danfoss October L0440 C en-US

88 General dimensions frame size 110 Cartridge flange 51C110-1 two-position control, N1NN (Side port on top, xial port below) X Loop flushing shuttle valve [5.51] Charge pressure relief valve Gauge port System pressure max. angle Case drain L UN-2 [1 1 /16-12UN-2] [1.09] [9.18] L [1.89] 48.0 [1.89] lternate position Case drain L UN-2 [1 1 /16-12UN-2] 48.0 [1.89] [2.25] min. angle stop adjustment max. [7.3 max.] Speed pick-up 49.0 [1.92] [4.53] 77.0 [3.03] Gauge port M1 System pressure UNF-2 [1 1 /16-12UNF-2] Split flange boss + DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min [3.03] Gauge port M2 System pressure UNF-2 [1 1 /16-12UNF-2] [6.55] Gauge port System pressure max. angle [1.09] [2.25] L [2.27] Gauge ports M1 + M2 System pressure + Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min [1.97] 80.0 [3.15] 50.0 [1.97] 80.0 [3.15] Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. P E 88 Danfoss October L0440 C en-US0401

89 General dimensions frame size C110 proportional and two-position control, H1 (Side port on top, xial port below) Charge pressure relief valve Case drain L UN-2 [1 1 /16-12UN-2] Speed pick-up lternate position Case drain L UN-2 [1 1 /16-12UN-2] X Gauge port M Servo pressure min. angle [5.50] Loop flushing shuttle valve 48.0 [1.89] Control start adjustment min. angle stop adjustment L1 N [2.25] L2 M [8.71] [1.09] M1 M5 Gauge port M7 Control pressure U 49.0 [1.91] max. [7.30] max [4.06] max. [4.53] max [3.03] Gauge port M5 Servo pressure supply Control mounting surface Split flange boss + DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min [3.03] Gauge port M1 System pressure U M7 X1 Gauge port M2 System pressure Shaft centerline 49.0 [1.93] Control pressure port X1 Gauge port Servo pressure max. angle Supply pressure Shuttle valve X [7.29] Gauge port M1 + M2 System pressure [3.15] 50.0 [1.97] M [3.15] 50.0 [1.97] [1.09] Gauge port Servo pressure max. angle [2.53] [2.25] Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. M5 Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. Supply pressure Shuttle valve P E Danfoss October L0440 C en-US

90 General dimensions frame size 110 Shaft options 51C110-1 and 51C110 E F X Mounting flange surface cartridge flange O-ring 3.00x FPM [0.12x7.56] [3.13] 21.2 [0.83] lternate position Case drain L UN-2 [1 1 /16-12UN-2] Series 51-1 with N1NN-control Control pressure port X1(M3) Servo pressure min. angle Ø30.0 [1.18] other side max. screw head space Series 51 with H1-control Ø [ ] Ø160.0 [6.30] Ø112.2 [4.42] Ø R2.0 [0.10] ØD Ø136.0 [5.35] Ø55.0 [2.17] 92.5 [3.64] M3 Ø22.0 ± 0.3 [0.87 ± 0.01] ØG H 92.5 [3.64] Clearance min. Ø293.5 [11.56] C Coupling may not protrude beyond this surface [4.78] Case drain L UN-2 [1 1 /16-12UN-2] 11.2 [0.44] 20.0 [0.79] [4.92] [11.33] [4.92] P E Shaft spline data - mm [in] Shaft option D3 D4 Number of teeth Spline 40x2x30x18x9g side fit DIN x2x30x21x9g side fit DIN 5480 Pitch Ø 36.0 [1.417] 42.0 [1.654] Ø 39.6 [1.56] 44.6 [1.76] 37.0 [1.46] 42.0 [1.65] C 45.0±0.5 [1.77] 50.0±0.5 [1.97] Ø D 35.0 [1.38] 40.0 [1.57] E 47.4±1.1 [1.87] 52.4±1.4 [2.06] F 167.7±0.6 [6.6] 172.7±0.6 [6.8] H 30.0 [1.18] 30.0 [1.18] Ø G Flow into port results in C rotation of output shaft. Flow into port results in CC rotation of output shaft. M12x1.75 allowed torque in thread max. 115 N m [1018 lbf in] Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. 90 Danfoss October L0440 C en-US0401

91 General dimensions frame size 160 SE flange design per ISO 3019/1 51V160 proportional and two-position control, H1 (Side port on top, xial port below) X 84.0 [3.31] 84.0 [3.31] 97.0 [3.82] 97.0 [3.82] [11.11] Charge pressure relief valve [4.47] Case drain L UN-2 [1 5 /16-12UN-2] L1 L2 19 Loop flushing shuttle valve [2.25] M [1.09] Gauge port M3 Servo pressure min. angle M1 Control start adjustment M [2.10] [8.08] [4.37] Gauge port M5 Servo pressure supply [4.94] Gauge port Servo pressure max. angle Gauge port M2 System pressure [ 9 /16 Gauge port M1-18UNF-2] System pressure Supply pressure Shuttle valve lternate position Case drain L UN-2 [1 5 /16-12UN-2] [4.47] min. angle stop adjustment [14.82] Gauge port M7 Control pressure U Control mounting surface Split flange boss + DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. U M7 X1 Shaft centerline 49.0 [1.93] Control pressure port X [6.51] [12.34] X Gauge port M1 + M2 System pressure [2.25] 91.0 [3.58] 60.0 [2.36] M [3.58] 60.0 [2.36] [1.09] Gauge port Servo pressure max. angle [5.68] L1 L [2.52] Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. M5 Supply pressure Shuttle valve Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. P E Danfoss October L0440 C en-US

92 General dimensions frame size 160 Shaft options 51V160 Mounting flange surface flange (SE "D") per ISO 3019/1 F X E Speed pick-up O-ring 3.00x FPM [0.12x5.59] Ø30.0 [1.18] other side max. screw head space R3.0 [0.12] Ø ± [5.999 ± 0.001] Ø ØG H ØD Ø55.0 [2.17] Ø100.0 [3.94] ± 1.8 [7.87 ± 0.07] 80.8 [3.18] 80.8 [3.18] Ø20.5 ± 0.2 [0.81 ± 0.01] [0.49] C Coupling may not protrude beyond this surface 22.0 [0.87] 80.8 [3.18] ± 1.8 [7.87 ± 0.07] 80.8 [3.18] P E Shaft spline data - mm [in] Shaft option F1 F2 C8 Number of teeth Pitch 8/16 8/16 16/32 Pitch Ø [1.625] [1.875] [1.688] Ø [1.72] [1.97] [1.73] 55.0 [2.17] 53.0 [2.09] 55.0 [2.17] Ø D 36.0 [1.42] [1.66] [1.56] Pressure angle 30 C 67.0±0.5 [2.64] E 70.0±1.1 [2.76] F 75.40±0.7 [2.97] H 36.0 [1.42] Spline Ø G Flow into port results in C rotation of output shaft. Flow into port results in CC rotation of output shaft. NSI , class 5, flat root side fit UNC-2 [5/8-11UNC-2]; allowed torque in thread max. 200 N m [1770 lbf in] Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. 92 Danfoss October L0440 C en-US0401

93 General dimensions frame size 160 DIN flange design per ISO 3019/2 51D160 proportional and two-position control, H1 (Side port on top, xial port below) [4.06] 95.5 [3.76] X [9.85] Loop flushing shuttle valve Charge pressure relief valve 81.0 [3.21] Case drain L UN-2 [1 5 /16-12UN-2] [2.25] M [1.09] Gauge port M3 Servo pressure min. angle Control start adjustment M1 M [2.10] [8.08] [4.37] [4.94] 84.0 [3.31] Gauge port M5 Servo pressure supply 84.0 [3.31] Gauge port Servo pressure max. angle Gauge port M2 System pressure Gauge port M1 System pressure Supply pressure Shuttle valve lternate position Case drain L UN-2 [1 5 /16-12UN-2] [4.78] min. angle stop adjustment [13.60] Gauge port M7 Control pressure U Control mounting surface Split flange boss + DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. U M7 X1 Shaft centerline 49.0 [1.93] Control pressure port X [4.80] [11.08] X Gauge port M1 + M2 System pressure [3.58] 60.0 [2.36] M [3.58] 60.0 [2.36] [1.09] Gauge port Servo pressure max. angle [5.44] 64.0 [2.53] [2.25] Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. M5 Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. Supply pressure Shuttle valve P E Danfoss October L0440 C en-US

94 General dimensions frame size 160 Shaft options 51D160 X Mounting flange surface flange HL per ISO 3019/2 E F 9.0 [0.35] Speed pick-up Ø30.0 [1.18] other side max. screw head space Ø [ ] Ø120.0 [4.72] Ø R1.6 [0.06] ØD Ø55.0 [2.17] ± 1.8 [8.35 ± 0.07] 79.2 [3.12] Ø130.0 (5.12) ØG H 79.2 [3.12] Coupling may not protrude beyond this surface C 9.0 [0.35] 40.0 [1.59] 25.0 [0.99] 79.2 [3.12] ± 1.8 [8.35 ± 0.07] 79.2 [3.12] Ø18.0 ± 0.2 [0.71 ± 0.01] P E Shaft spline data - mm [in] Shaft option D4 D5 Number of teeth Spline 45x2x30x21x9g side fit DIN x2x30x24x9g side fit DIN 5480 Pitch Ø 42.0 [1.654] 48.0 [1.890] Ø 44.6 [1.76] 49.6 [1.95] 42.0 [1.65] 47.0 [1.85] C 50.0±0.5 [1.97] 55.0±0.5 [2.17] Ø D 40.0 [1.57] 45.0 [1.77] E 52.3±1.1 [2.06] 57.3±1.1 [2.26] F 90.3±0.6 [3.56] 95.3±0.6 [3.75] H 30.0 [1.18] 30.0 [1.18] Ø G Flow into port results in C rotation of output shaft. Flow into port results in CC rotation of output shaft. M12x1.75 allowed torque in thread max. 115 N m [1018 lbf in] Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. 94 Danfoss October L0440 C en-US0401

95 General dimensions frame size 160 Cartridge flange 51C160 proportional and two-position control, H1 (Side port on top, xial port below) Charge pressure relief valve Loop flushing shuttle valve Case drain L UN-2 [1 5 /16-12UN-2] 51.0 [2.01] 51.0 [2.01] 54.0 [2.13] L1 X [5.73] [2.25] M [1.09] Gauge port M3 Servo pressure min. angle M1 Control start adjustment M [2.1] [8.08] [4.37] [4.94] 84.0 [3.31] Gauge port M5 Servo pressure supply 84.0 [3.31] Gauge port M2 System pressure Gauge port M1 System pressure Gauge port Servo pressure max. angle Supply pressure Shuttle valve lternate position Case drain L UN-2 [1 5 /16-12UN-2] min. angle stop adjustment Gauge port M7 Control pressure [9.40] U Control mounting surface Split flange boss + DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. U M7 X1 Shaft centerline 49.0 [1.93] Control pressure port X1 X [6.96] Gauge port M1 + M2 System pressure [3.58] 60.0 [2.36] M [3.58] 60.0 [2.36] Gauge port Servo pressure max. angle [1.09] L [2.52] [2.25] Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. M5 Split flange boss DN 25 typ II 40 MPa series per ISO 6162 [SE 1.00] 4 thread: UNC-2 [ 7 /16-14UNC-2] 27 [1.06] min. Supply pressure Shuttle valve P E Danfoss October L0440 C en-US

96 General dimensions frame size 160 Shaft options 51C160 F E 96.0 [3.78] O-ring 3.00x FPM [0.12x8.66] 45 X Mounting flange surface cartridge flange Case drain L UN-2 [1 5 /16-12UN-2] Ø30.0 [1.18] other side max. screw head space Ø22.0 ± 0.3 [0.87 ± 0.01] [4.09] Ø184.0 [7.24] Ø142.0 [5.59] Ø120.0 [4.72] Ø ØD Ø55.0 [2.17] Ø [ ] Clearance min. Ø323.6 [12.74] ØG H [4.09] C Coupling may not protrude beyond this surface lternate position Case drain L UN-2 [1 5 /16-12UN-2] 11.2 [0.44] max. [5.54 max.] [0.79] [5.51] ± 2.0 [12.52 ± 0.08] [5.51] P E Shaft spline data - mm [in] Shaft option D4 D5 Number of teeth Spline 45x2x30x21x9g side fit DIN x2x30x24x9g side fit DIN 5480 Pitch Ø 42.0 [1.654] 48.0 [1.890] Ø 44.6 [1.76] 49.6 [1.95] 42.0 [1.65] 47.0 [1.85] C 50.0±0.5 [1.97] 55.0±0.5 [2.17] Ø D 40.0 [1.57] 45.0 [1.77] E 54.5±1.4 [2.15] 59.5±1.4 [2.34] F 194.9±0.6 [7.67] 199.9±0.6 [7.87] H 30.0 [1.18] 30.0 [1.18] Ø G Flow into port results in C rotation of output shaft. Flow into port results in CC rotation of output shaft. M12x1.75 allowed torque in thread max. 115 N m [1018 lbf in] Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. 96 Danfoss October L0440 C en-US0401

97 General dimensions frame size 250 SE flange design per ISO 3019/1 51V250 Proportional and Two-Position Control, H1 (Side port on top, xial port below) Loop flushing shuttle valve [5.18] Case drain L UN-2 [1 5 /16-12UN-2] [4.45] [4.45] L [12.79] Charge pressure relief valve 19 X [2.63] M [1.25] Gauge port M3 Servo pressure min. angle Control start adjustment M1 M [2.44] [9.39] [4.71] [5.4] 97.0 [3.82] Gauge port M5 Servo pressure supply 97.0 [3.82] Gauge port M1 System pressure Gauge port M2 System pressure Gauge port Servo pressure max. angle Supply pressure Shuttle valve L2 lternate position Case drain L UN-2 [1 5 /16-12UN-2] [5.18] min. angle stop adjustment [16.89] Gage port M7 Control pressure U Control mounting surface Split flange boss + DN 32 typ II 40 MPa series per ISO 6162 [SE 1.25] 4 thread: UNC-2 [ 1 /2-13UNC-2] 25 [0.98] min. U M7 X1 Shaft centerline 49.0 [1.93] Control pressure port X [7.15] X [14.13] Gauge port M1 + M2 System pressure [2.63] 99.0 [3.90] 65.0 [2.56] M [3.90] 65.0 [2.56] [1.25] Gauge port Servo pressure max. angle [6.11] L1 L [2.90] Split flange boss DN 32 typ II 40 MPa series per ISO 6162 [SE 1.25] 4 thread: UNC-2 [ 1 /2-13UNC-2] 25 [0.98] min. M5 Split flange boss DN 32 typ II 40 MPa series per ISO 6162 [SE 1.25] 4 thread: UNC-2 [ 1 /2-13UNC-2] 25 [0.98] min. Supply pressure Shuttle valve P E Danfoss October L0440 C en-US

98 General dimensions frame size 250 Shaft Options 51V250 Mounting flange surface flange (SE "E") per ISO 3019/1 E F O-ring 3.00x FPM [0.12x6.06] X Speed pick-up Ø30.0 [1.18] other side max. screw head space R3.0 [0.12] [4.42] Ø ± [6.499 ± 0.001] Ø118.0 [4.65] Ø ØG 36.0 [1.42] ØD Ø55.0 [2.17] Ø100.0 [3.94] ± 1.9 [10.24 ± 0.07] [4.42] Ø20.5 ± 0.2 [0.81 ± 0.01] [0.62] C Coupling may not protrude beyond this surface 25.0 [0.98] [4.42] ± 1.9 [10.24 ± 0.07] [4.42] P E Shaft spline data - mm [in] Shaft option F2 C8 Number of teeth Pitch 8/16 16/32 Pitch Ø [1.875] [1.688] Ø [1.97] [1.73] 53.0 [2.09] 55.0 [2.17] Ø D [1.66] [1.56] Pressure angle 30 C 67.0 ±0.5 [2.64] E 70.0 ±1.1 [2.76] F 75.4 ±0.7 [2.97] H 36.0 [1.42] Spline Ø G NSI , class 5, flat root side fit UNC-2 [5/8-11UNC-2]; allowed torque in thread max. 200 N m [1770 lbf in] Flow into port results in C rotation of output shaft. Flow into port results in CC rotation of output shaft. Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. 98 Danfoss October L0440 C en-US0401

99 Dimension Controls Options T** for 51-1 Pressure Compensator Control (Frame Size: 060, 080, 110) Electric brake pressure defeat TD* Hydraulic brake pressure defeat TC Control pressure port X 75.0 [2.94] M3 X 55.0 [2.17] M3 X Shaft centerline Flange C [5.05] X1 X 55.0 [2.17] X1 X Control pressure port X Shaft centerline Solenoid for Electric brake pressure defeat P E Control T** for mm [in] Frame Design V D C V D C V D C [7.13] [6.17] 96.9 [3.82] [7.75] [6.81] 94.5 [3.72] [8.40] [7.16] 99.0 [3.90] [7.85] [8.26] [8.80] [8.82] C [6.95] [7.36] [7.90] [7.91] V = SE-flange D = DIN-flange C = Cartridge flange Solenoid connectors Plug face DIN (Supplied) Mating connector No.: K09129 Id. No.: P MP Junior Timer two pin (Supplied) Mating connector No.: K19815 Id. No.: P Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. Danfoss October L0440 C en-US

100 Dimension Controls Options T** for 51 Pressure Compensator Control (Frame Size: 160, 250) Control option TC2 Control pressure port X Shaft centerline X1 J Flange 58.0 [2.28] X X X4 J Supply pressure Shuttle valve Control pressure port X P E Control T** for 51 - mm [in] Frame Design V D C V D C J 393 [15.48] 361 [14.22] 257 [10.11] 445 [17.51] J 114 [4.48] 122 [4.82] V = SE-flange D = DIN-flange C = Cartridge flange Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. 100 Danfoss October L0440 C en-US0401

101 Dimension Controls Options TH** for 51-1 Hydraulic Two-Position Control (Frame Size: 060, 080, 110) Electric brake pressure defeat THD* Hydraulic brake pressure defeat THC2 Control pressure port X 75.0 [2.94] M3 X 54.5 [2.15] M3 X Shaft centerline Flange Shaft centerline C [5.05] X1 X Control pressure port X [2.15] X1 X Control pressure port X Control pressure port X1 Solenoid for Electric brake pressure defeat P E Control T** for mm [in] Frame Design V D C V D C V D C [7.13] [6.17] 96.9 [3.82] [7.75] [6.81] 94.5 [3.72] [8.40] [7.16] 99.0 [3.90] [7.85] [8.26] [8.80] [8.82] C [6.95] [7.36] [7.90] [7.91] V = SE-flange D = DIN-flange C = Cartridge flange Solenoid connectors Plug face DIN (Supplied) Mating connector No.: K09129 Id. No.: P MP Junior Timer two pin (Supplied) Mating connector No.: K19815 Id. No.: P Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. Danfoss October L0440 C en-US

102 Dimension Controls Options TH** for 51 Hydraulic Two-Position Control (Frame Size: 160, 250) Control option THC2 Control pressure port X Shaft centerline X X1 Control pressure port X1 J 58.0 [2.28] X4 X Flange J Supply pressure Shuttle valve Control pressure port X P E Control T** for 51 - mm [in] Frame size Design V D C V D C J 393 [15.48] 361 [14.22] 257 [10.11] 445 [17.51] J 114 [4.48] 122 [4.82] V = SE-flange D = DIN-flange C = Cartridge flange Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. 102 Danfoss October L0440 C en-US0401

103 Dimension Controls Options E*1, F*1 for 51-1 Electrohydraulic Two-Position Control (Frame Size: 060, 080, 110) Control options E*1 / F*1 M5 Shaft centerline M3 Shaft centerline Solenoid for Electric 2 position control Gauge port M3 Servo pressure min. angle P E Control E11, E21, E71, F11, F21 for mm [in] Frame Design V D C V D C V D C [8.21] [8.62] [9.16] V = SE-flange D = DIN-flange C = Cartridge flange Solenoid connectors Plug face DIN (Supplied) Mating connector No.: K09129 Id. No.: P MP Junior Timer two pin (Supplied) Mating connector No.: K19815 Id. No.: P Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. Danfoss October L0440 C en-US

104 Dimension Controls Options E*5, F*5 for 51 Electrohydraulic Two-Position Control (Frame Size: 160, 250) Gauge port M8 Internal control pressure Shaft centerline Control options E*5/F*5 Gauge port M7 Internal control pressure Flange D 72.0 [2.82] P E Control E15, E25, F15, F25 for 51 - mm [in] Frame size Design V D C V D C 401 [15.79] 369 [14.53] 265 [10.42] 453 [17.82] D 145 [5.72] 154 [6.06] V = SE-flange D = DIN-flange C = Cartridge flange Solenoid connector Plug face DIN (Supplied) Mating connector No.: K09129 Id. No.: P Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. 104 Danfoss October L0440 C en-US0401

105 Dimension Controls Options T1**, T2**, T7** for 51-1 Electrohydraulic Two-Position Control (Frame Size: 060, 080, 110) Electric brake pressure defeat T*D* Hydraulic brake pressure defeat T*C [2.94] M3 X 55.0 [2.17] M3 X Shaft centerline Flange C [5.05] 55.0 [2.17] X X1 X X1 Shaft centerline Solenoid for Electric brake pressure defeat Solenoid for Electric 2 position control Solenoid for Electric 2 position control P E Control T1**, T2**, T7** for mm [in] Frame Design V D C V D C V D C [7.13] [6.17] 96.9 [3.82] [7.75] [6.81] 94.5 [3.72] [8.40] [7.16] 99.0 [3.90] [7.85] [8.26] [8.80] [8.82] C [6.95] [7.36] [7.90] [7.91] V = SE-flange D = DIN-flange C = Cartridge flange Solenoid connectors Plug face DIN (Supplied) Mating connector No.: K09129 Id. No.: P MP Junior Timer two pin (Supplied) Mating connector No.: K19815 Id. No.: P Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. Danfoss October L0440 C en-US

106 Dimension Controls Options T1C2, T2C2 for 51 Electrohydraulic Two-Position Control (Frame Size: 060, 080, 110) Control option T*C2 Shaft centerline Solenoid for Electric 2 position control Flange H 49.0 [1.93] H P E Control T1C2, T2C2 for 51 - mm [in] Frame size Design V D C V D C H 409 [16.10] 377 [14.84] 272 [10.73] 461 [18.13] H 178 [7.0] 186 [7.33] V = SE-flange D = DIN-flange C = Cartridge flange Solenoid connector Plug face DIN (Supplied) Mating connector No.: K09129 Id. No.: P Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. 106 Danfoss October L0440 C en-US0401

107 Dimension Controls Options EP1, EQ1 for 51 Electrohydraulic Two-Position Control (ll Frame Sizes) Control option EQ1 Control pressure port X Flange FG FF Shaft centerline FH FE Control pressure port X Shaft centerline FJ FC F FD F Gauge port M7 Control pressure Pressure compensator override MS 3102C Connector UNEF [ 7 /8-20UNEF] Gauge port M8 Control pressure Pressure control Pilot valve Manual override P001826E Control EP1, EQ1 for 51 - mm [in] Frame Design V D C V D C V D C V D C V D C F 327 [12.89] F 210 [8.26] FC 203 [8.00] FD 286 [11.25] 303 [11.93] 185 [7.29] 179 [7.04] 261 [10.29] 243 [9.57] 125 [4.94] 119 [4.69] 202 [7.93] 351 [13.81] 233 [9.18] 226 [8.88] 309 [12.17] 327 [12.87] 209 [8.23] 202 [7.94] 285 [11.32] 249 [9.78] 131 [5.15] 123 [4.85] 207 [8.14] 369 [14.54] 252 [9.90] 244 [9.61] 328 [12.90] 337 [13.28] 220 [8.65] 212 [8.35] 296 [11.64] 255 [10.04] 137 [5.40] 130 [5.11] 213 [8.40] 409 [16.11] 283 [11.14] 276 [10.85] 367 [14.47] 377 [14.85] 251 [9.88] 244 [9.59] 335 [13.21] 273 [10.73] 146 [5.76] 139 [5.48] 231 [9.09] 461 [18.31] 334 [13.17] 327 [12.88] 419 [16.50] FE 168 [6.62] 174 [6.85] 176 [6.91] 183 [7.22] 192 [7.56] FF 74 [2.91] 80 [3.15] 81 [3.20] 92 [3.63] 101 [3.97] FG 110 [4.33] 116 [4.58] 118 [4.64] 129 [5.06] 137 [5.41] FH 114 [4.47] 120 [4.74] 122 [4.80] 130 [5.11] 138 [5.45] FJ 56 [2.20] 56 [2.20] 56 [2.20] 57 [2.22] 57 [2.22] V = SE-flange; D = DIN-flange; C = Cartridge flange = not available Solenoid connectors MS Connector MS3102C-14S-2P (Supplied Connector) Mating Connector No.: K08106 Id.-No.: D C P E Packard eather-pack 4 pin (Supplied Connector) Mating Connector No.: K03384 Id.-No.: C D P E Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. Danfoss October L0440 C en-US

108 Dimension Controls Options L11, L21, L71 for 51 Electrohydraulic Two-Position Control (ll Frame Sizes) Shaft centerline Control option L*1 Solenoid for Electric proportional control Flange L 49.0 [1.93] L P E Control L11, L21, L71 for 51 - mm [in] Frame Design V D C V D C V D C V D C V D C L 321 [12.63] 296 [11.66] 236 [9.31] 344 [13.55] 320 [12.60] 242 [9.52] 363 [14.28] 331 [13.02] 248 [9.77] 402 [15.84] 370 [14.58] 266 [10.47] L 144 [5.66] 150 [5.90] 151 [5.96] 159 [6.27] 168 [6.61] V = SE-flange; D = DIN-flange; C = Cartridge flange 454 [17.87] Solenoid connectors Plug face DIN (Supplied) Mating connector No.: K09129 Id. No.: P MP Junior Timer two pin (Supplied) Mating connector No.: K19815 Id. No.: P Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. 108 Danfoss October L0440 C en-US0401

109 Dimension Controls Options D7M1, D8M1 for 51 Electrohydraulic Two-Position Control (Frame Size: 060, 080, 110) Control option D*M1 Control pressure port X Shaft centerline 59.6 [2.35] GE GD [4.33] 71.6 [2.82] Electric proportional pressure reducing valve Flange GC G Control pressure port X P E Control D7M1, D8M1 for 51 - mm [in] Size Design V D C V D C V D C G 325 [12.80] 301 [11.84] 241 [9.49] GC 210 [8.26] 185 [7.29] 125 [4.94] 349 [13.73] 325 [12.80] 246 [9.70] 233 [9.18] 209 [8.23] 131 [5.15] 367 [14.64] 335 [13.20] 253 [9.95] 252 [9.91] 220 [8.65] 137 [5.40] GD 106 [4.19] 112 [4.42] 114 [4.48] GE 74 [2.91] 80 [3.15] 81 [3.20] V = SE-flange D = DIN-flange C = Cartridge flange Solenoid connector Plug face DIN (Supplied) Mating connector No.: K09129 Id. No.: P Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. Danfoss October L0440 C en-US

110 Dimension Controls Options D7M1, D8M1 for 51 Electrohydraulic Two-Position Control (Frame Size: 160, 250) Control option D*M1 Control pressure port X Shaft centerline 59.0 [2.32] GE GD [4.33] 70 [2.76] Electric proportional pressure reducing valve Flange GC G Control pressure port X P E Control D7M1, D8M1 for 51 - mm [in] Frame size Design V D C V D C G 407 [16.02] 375 [14.76] 270 [10.65] 459 [18.05] GC 283 [11.14] 251 [9.88] 146 [5.76] 334 [13.17] GD 133 [5.22] 141 [5.55] GE 92 [3.63] 101 [3.97] V = SE-flange, D = DIN-flange, C = Cartridge flange = not available Solenoid connector Plug face DIN (Supplied) Mating connector No.: K09129 Id. No.: P Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. 110 Danfoss October L0440 C en-US0401

111 Dimension Controls Option HS* for 51 Hydraulic Proportional Control (ll Frame Sizes) Control option HS* Control pressure port X Shaft centerline 58.0 [2.3] Control pressure port X1 Shaft centerline Flange F H E G 114 [4.47] J C D Gauge port M7 Control pressure Pressure compensator override Control pressure port X P E Control HS* for 51 - mm [in] Size Design V D C V D C V D C V D C V D C 316 [12.45] 210 [8.26] C 203 [8.00] D 288 [11.35] 292 [11.49] 185 [7.29] 179 [7.04] 264 [10.38] 232 [9.13] 125 [4.94] 119 [4.69] 204 [8.03] 340 [13.37] 233 [9.18] 226 [8.88] 312 [12.27] 316 [12.34] 209 [8.23] 202 [7.94] 288 [11.35] 237 [9.34] 131 [5.15] 123 [4.85] 209 [8.24] 358 [14.10] 252 [9.90] 244 [9.61] 330 [12.99] 326 [12.84] 220 [8.65] 212 [8.35] 298 [11.74] 244 [9.60] 137 [5.40] 130 [5.11] 216 [8.49] 398 [15.66] 283 [11.14] 276 [10.85] 370 [14.56] 366 [14.40] 251 [9.88] 244 [9.59] 338 [13.30] 261 [10.29] E 130 [5.12] 136 [5.35] 137 [5.41] 145 [5.72] 154 [6.06] F 74 [2.91] 80 [3.15] 81 [3.20] 92 [3.63] 101 [3.97] G 110 [4.33] 116 [4.58] 118 [4.64] 129 [5.06] 137 [5.41] H 98 [3.87] 104 [4.10] 106 [4.16] 114 [4.47] 122 [4.81] J 56 [2.20] 56 [2.20] 56 [2.20] 57 [2.22] 57 [2.22] V = SE-flange; D = DIN-flange; C = Cartridge flange; = not available 146 [5.76] 139 [5.48] 233 [9.18] 449 [17.70] 334 [13.17] 327 [12.88] 421 [16.59] Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. Danfoss October L0440 C en-US

112 Dimension Controls Option H1 for 51 Hydraulic Proportional Control (ll Frame Sizes) Control option H1 Control pressure port X1 M7 Shaft centerline X1 Flange E 49.0 [1.93] E Gauge port M7 Control pressure P E Control H1 for 51 - mm [in] Size Design V D C V D C V D C V D C V D C E 294 [11.56] [10.64] 209 [8.24] [12.52] [11.58] 215 [8.45] [13.25] [12.00] 221 [8.71] [14.82] [13.60] E 96 [3.77] 102 [4.0] 103 [4.06] 111 [4.37] 120 [4.71] V = SE-flange; D = DIN-flange; C = Cartridge flange = not available 239 [9.40] [16.89] Shaft rotation is determined by viewing from shaft end. Ports with O-ring seal and inch threads shall be in accordance with ISO 11926/1. Splite flange boss and per ISO 6162 is identical with high pressure series SEJ518 code 62 (6000 psi). Contact your Danfoss representative for specific installation drawings. 112 Danfoss October L0440 C en-US0401

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116 Products we offer: ent xis Motors Closed Circuit xial Piston Pumps and Motors Displays Electrohydraulic Power Steering Electrohydraulics Danfoss Power Solutions is a global manufacturer and supplier of high-quality hydraulic and electronic components. e specialize in providing state-of-the-art technology and solutions that excel in the harsh operating conditions of the mobile off-highway market. uilding on our extensive applications expertise, we work closely with our customers to ensure exceptional performance for a broad range of off-highway vehicles. e help OEMs around the world speed up system development, reduce costs and bring vehicles to market faster. Danfoss our Strongest Partner in Mobile Hydraulics. Hydraulic Power Steering Go to for further product information. Integrated Systems herever off-highway vehicles are at work, so is Danfoss. e offer expert worldwide support for our customers, ensuring the best possible solutions for outstanding performance. nd with an extensive network of Global Service Partners, we also provide comprehensive global service for all of our components. Joysticks and Control Handles Microcontrollers and Software Open Circuit xial Piston Pumps Orbital Motors Please contact the Danfoss Power Solution representative nearest you. PLUS+1 GUIDE Proportional Valves Sensors Steering Transit Mixer Drives Comatrol Local address: Turolla Hydro-Gear Daikin-Sauer-Danfoss Danfoss Power Solutions (US) Company 2800 East 13th Street mes, I 50010, US Phone: Danfoss Power Solutions GmbH & Co. OHG Krokamp 35 D Neumünster, Germany Phone: Danfoss Power Solutions ps Nordborgvej 81 DK-6430 Nordborg, Denmark Phone: Danfoss Power Solutions Trading (Shanghai) Co., Ltd. uilding #22, No Jin Hai Rd Jin Qiao, Pudong New District Shanghai, China Phone: Danfoss can accept no responsibility for possible errors in catalogues, brochures and other printed material. Danfoss reserves the right to alter its products without notice. This also applies to products already on order provided that such alterations can be made without changes being necessary in specifications already agreed. ll trademarks in this material are property of the respective companies. Danfoss and the Danfoss logotype are trademarks of Danfoss /S. ll rights reserved. Danfoss October L0440 C en-US0401