Revision history Table of revisions
Date Changed Rev
March 2016 Minor edit 0804
January 2015 correction to O-ring sizing - page 77 HC
May 2014 corrections to pin assignments - page 48 HB
February 2014 Danfoss Layout HA
Technical Information Series 90 Axial Piston Pumps
2 520L0603 • Rev 0804 • March 2016
General Description
Series 90 Family of Pumps and Motors.....................................................................................................................................5
PLUS+1 Compliant Controls and Sensors................................................................................................................................5
Design...................................................................................................................................................................................................6
Pictorial Circuit Diagram................................................................................................................................................................6
System schematic.............................................................................................................................................................................7
Technical Specifications
General Specifications.................................................................................................................................................................... 8
Features and Options......................................................................................................................................................................8
Operating Parameters.....................................................................................................................................................................9
Fluid Specifications..........................................................................................................................................................................9
Operating Parameters
Overview........................................................................................................................................................................................... 10
Input Speed......................................................................................................................................................................................10
Independant Braking System.................................................................................................................................................... 10
System Pressure..............................................................................................................................................................................10
Servo Pressure.................................................................................................................................................................................11
Charge Pressure..............................................................................................................................................................................11
Case Pressure...................................................................................................................................................................................11
External Shaft Seal Pressure.......................................................................................................................................................12
Temperature and Viscosity.........................................................................................................................................................12
System Design Parameters
Filtration System.............................................................................................................................................................................13
Filtration Options...........................................................................................................................................................................13
Suction filtration – Option S................................................................................................................................................. 13
Charge pressure filtration (partial charge pump flow)............................................................................................... 14
Remote charge pressure filtration......................................................................................................................................14
Fluid Selection.................................................................................................................................................................................15
Reservoir............................................................................................................................................................................................15
Case Drain.........................................................................................................................................................................................15
Pump Life..........................................................................................................................................................................................16
Charge Pump...................................................................................................................................................................................16
Charge pump sizing/selection.............................................................................................................................................16
Bearing Loads and Life.................................................................................................................................................................16
Applications with external shaft loads..............................................................................................................................17
Understanding and Minimizing System Noise....................................................................................................................17
Sizing Equations.............................................................................................................................................................................18
Mounting Flange Loads...............................................................................................................................................................18
Master Model Code
Series 90 Master Model Code.................................................................................................................................................... 21
Control Options
3-Position (FNR) Electric Control - DC, DD............................................................................................................................ 26
Response time........................................................................................................................................................................... 27
Electric Displacement Control (EDC), Options KA, KP, KT................................................................................................27
Features and Benefits..............................................................................................................................................................28
Response time........................................................................................................................................................................... 31
Pump output flow direction vs. control current............................................................................................................31
Manual Over Ride (MOR).............................................................................................................................................................31
Hydraulic Displacement Control (HDC), Option HF...........................................................................................................32
Operation.....................................................................................................................................................................................32
Features and Benefits..............................................................................................................................................................32
Response time........................................................................................................................................................................... 33
Pump output flow direction vs. control pressure.........................................................................................................34
Manual Displacement Control (MDC), Options MA, MB.................................................................................................. 34
Features and benefits..............................................................................................................................................................34
External control handle requirements..............................................................................................................................35
Technical Information
Series 90 Axial Piston Pumps
Contents
520L0603 • Rev 0804 • March 2016 3
Response Time...........................................................................................................................................................................36
Pump output flow direction vs. control handle rotation...........................................................................................36
MDC with Neutral Start Switch (NSS)......................................................................................................................................37
Non Feedback Proportional Electric Control (NFPE) ........................................................................................................37
Control response.......................................................................................................................................................................37
NFPE control used with a Danfoss microcontroller......................................................................................................38
Input signal requirements.....................................................................................................................................................39
Features and Options
Multi-Function Valves...................................................................................................................................................................40
Overpressure protection........................................................................................................................................................40
Pressure limiting function..................................................................................................................................................... 40
Bypass Function........................................................................................................................................................................ 41
Auxiliary Mounting Pads............................................................................................................................................................. 41
Mating pump requirements................................................................................................................................................. 41
Displacement Limiter................................................................................................................................................................... 42
Shaft Torque.....................................................................................................................................................................................43
Shaft torque and spline lubrication................................................................................................................................... 43
Shaft torque for tapered shafts............................................................................................................................................44
Shaft Availability and Torque Ratings.....................................................................................................................................44
Tapered Shaft Customer Acknowledgement.................................................................................................................45
Charge Pump...................................................................................................................................................................................46
Charge pump sizing/selection.............................................................................................................................................46
Charge pump flow and power curves...............................................................................................................................46
Speed Sensor...................................................................................................................................................................................47
Connector Pin Assignments.......................................................................................................................................................49
Installation Drawings
Frame Size 042................................................................................................................................................................................50
Frame Size 055................................................................................................................................................................................53
Frame Size 075................................................................................................................................................................................57
Frame Size 075 NFPE Options FK, FL, FM, FN.......................................................................................................................60
Frame Size 100................................................................................................................................................................................65
Frame Size 130................................................................................................................................................................................70
Frame Size 180................................................................................................................................................................................74
Frame Size 250................................................................................................................................................................................78
Cover Plate........................................................................................................................................................................................82
3-Position (F-N-R) Electric Control........................................................................................................................................... 82
Electric Displacement Control (EDC) with MS-Connector or Packard® connector.................................................83
Hydraulic Displacement Control (HDC)................................................................................................................................. 84
Manual Displacement Control (MDC) with neutral start switch...................................................................................84
Electrohydraulic Displacement Control (NFPE)(except 075 NFPE).............................................................................. 85
Integral Pressure Filter................................................................................................................................................................. 86
Remote pressure – without filter..............................................................................................................................................86
Technical Information
Series 90 Axial Piston Pumps
Contents
4 520L0603 • Rev 0804 • March 2016
Series 90 Family of Pumps and Motors
Series 90 hydrostatic pumps and motors can be applied together or combined with other products in a
system to transfer and control hydraulic power. They are intended for closed circuit applications.
•
Series 90 – advanced technology
•
Seven sizes of variable displacement pumps
•
Proven reliability and performance
•
Compact, lightweight
•
Worldwide sales and service
•
PLUS+1
™
compliant controls and sensors
Series 90 variable displacement pumps are compact, high power density units. All models utilize the
parallel axial piston/slipper concept in conjunction with a tiltable swashplate to vary the pump’s
displacement. Reversing the angle of the swashplate reverses the flow of oil from the pump and thus
reverses the direction of rotation of the motor output.
Series 90 pumps include an integral charge pump to provide system replenishing and cooling oil flow, as
well as control fluid flow. They also feature a range of auxiliary mounting pads to accept auxiliary
hydraulic pumps for use in complementary hydraulic systems. A complete family of control options is
available to suit a variety of control systems (mechanical, hydraulic, electric).
Series 90 motors also use the parallel axial piston/slipper design in conjunction with a fixed or tiltable
swashplate. They can intake/discharge fluid through either port; they are bidirectional. They also include
an optional loop flushing feature that provides additional cooling and cleaning of fluid in the working
loop. For more information on Series 90 motors, refer to Series 90 Motors Technical Information 520L0604.
PLUS+1 Compliant Controls and Sensors
A wide range of Series 90 controls and sensors are PLUS+1
™
compliant. PLUS+1 compliance means our
controls and sensors are directly compatible with the PLUS+1 machine control architecture. Adding
Series 90 pumps to your application using PLUS+1 GUIDE software is as easy as drag-and-drop. Software
development that used to take months can now be done in just a few hours. For more information on
PLUS+1 GUIDE, visit www.sauer-danfoss.com/plus1.
Series 90 pumps can be used together in combination with other Danfoss pumps and motors in the
overall hydraulic system. Danfoss hydrostatic products are designed with many different displacement,
pressure and load-life capabilities.
Go to the Danfoss website or applicable product catalog to choose the components that are right for
your complete closed circuit hydraulic system.
Technical Information
Series 90 Axial Piston Pumps
General Description
520L0603 • Rev 0804 • March 2016 5
Design
Series 90 pump cross-section
P106 648E
Slider block
Servo piston
Servo arm
Displacement control
Cradle bearing
Charge pump
Swashplate
Cradle guide
Feedback linkage
Roller bearing
Shaft
Piston
Slipper
Valve plate
Cylinder block
Input shaft
Rear
bushing
Bushing
seal
Typical name plate
Model-No./Ident-No.
Model Code
Serial-No.
Made in USA
Place of Manufacture
Model
Number
Serial
Number
Model
Code
A - 88 - 126 - 67890
501829
P108494E
90L055 KA 1 N
6 S 3 C6 C 03
NNN 35 35 24
Series 90 pumps are also manufactured in Europe and China. Place of manufacture shown on nameplate
will correspond with the actual place of manufacture.
Pictorial Circuit Diagram
This configuration shows a hydrostatic transmission using a Series 90 axial piston variable displacement
pump and a Series 90 fixed displacement motor.
Technical Information
Series 90 Axial Piston Pumps
General Description
6 520L0603 • Rev 0804 • March 2016
Pump Motor
Working loop (low pressure)
Control fluid
Suction line
Case drain fluid
Working loop (high pressure)
Motor swashplate
Loop flushing valve
Displacement control valve
Heat exchanger bypass valve
Reservoir
Vacuum gauge
Purge relief valve
Fixed displacement motor
Output shaft
Multi-function valve
Charge pump
To
pump
case
Servo
pressure
relief valves
Servo control cylinder
Pump swashplate
Input shaft
Reversible variable
displacement pump
Servo control cylinder
Heat exchanger
Multi-function valve
Charge pressure relief valve
Orificed check
valve
Control handle
P102 000
System schematic
M
BB
L2
M2
M1
M4
M5
M3
A A
S
L2 M1
M2
L1
M3
P104 286E
Technical Information
Series 90 Axial Piston Pumps
General Description
520L0603 • Rev 0804 • March 2016 7
General Specifications
Design Axial piston pump of cradle swashplate design with variable displacement
Direction of rotation Clockwise, counterclockwise
Pipe connections Main pressure ports: ISO split flange boss
Remaining ports: SAE straight thread O-ring boss
Recommended installation position Pump installation position is discretionary, however the recommended control position is on the top
or at the side, with the top position preferred.
Vertical input shaft installation is acceptable.
If input shaft is at the top 1 bar case pressure must be maintained during operation.
The pump housing must be filled with hydraulic fluid under all conditions; including after a long
period of shutdown. Before operating the machine, ensure the pump housing and case drain lines are
free of air.
Recommended mounting for a multiple pump stack is to arrange the highest power flow towards the
input source.
Consult Danfoss for nonconformance to these guidelines.
Auxiliary cavity pressure Will be inlet pressure with internal charge pump. For reference see Operating Parameters. Will be case
pressure with external charge supply.
Please verify mating pump shaft seal capability.
Features and Options
Feature Unit Frame
042 055 075 100 130 180 250
Displacement cm³/rev.
[in³]/rev.
42
[2.56]
55
[3.35]
75
[4.59]
100
[6.10]
130
[7.93]
180
[10.98]
250
[15.25]
Flow at rated speed (theoretical) l/min.
[US gal/
min.]
176
[46]
215
[57]
270
[71]
330
[87]
403
[106]
468
[124]
575
[160]
Torque at maximum
displacement (theoretical)
N•m/bar
[lbf•in/1000
psi]
0.67
[410]
0.88
[530]
1.19
[730]
1.59
[970]
2.07
[1260]
2.87
[1750]
3.97
[2433]
Mass moment of inertia of
rotating components
kg•m²
[slug•ft²]
0.0023
[0.0017]
0.0060
[0.0044]
0.0096
[0.0071]
0.0150
[0.0111]
0.023
[0.0170]
0.0380
[0.0280]
0.0650
[0.0479]
Weight (with control opt. MA) kg [lb] 34 [75] 40 [88] 49 [108] 68 [150] 88 [195] 136 [300] 154 [340]
Mounting (per ISO 3019-1) Flange
102-2 (SAE B)
Flange
127-4 (SAE C)
Flange
152-4 (SAE D)
Flange
165-4 (SAE E)
Rotation Right hand or Left hand rotation
Main ports: 4-bolt split-flange
(per SAE J518 code 62)
mm
[in]
19.05
[0.75]
25.4
[1.0]
25.4
[1.0]
25.4
[1.0]
31.75
[1.25]
31.75
[1.25]
38.1
[1.5]
Main port configuration Twin port Twin or side port Twin port
Case drain ports (SAE O-ring
boss)
UNF thread
(in.)
0.875–14 1.0625–12 1.0625–12 1.0625–12 1.3125–12 1.625–12 1.625–12
Other ports SAE O-ring boss
Shafts Splined, and tapered shafts available
Auxiliary mounting SAE-A, B, C SAE-A, B, C, D SAE-A, B, C, D, E
Technical Information Series 90 Axial Piston Pumps
Technical Specifications
8 520L0603 • Rev 0804 • March 2016
Operating Parameters
Parameter Unit Frame
042 055 075 100 130 180 250
Input speed
Minimum min-1(rpm) 500 500 500 500 500 500 500
Rated Speed 4200 3900 3600 3300 3100 2600 2300
Maximum 4600 4250 3950 3650 3400 2850 2500
Operating parameters
System pressure Maximum working pressure bar [psi] 450 [6525]
Maximum pressure 480 [6960]
Maximum low loop 45 [650]
Minimum low loop pressure 10 [145]
Charge pressure Minimum bar [psi] 18 [261]
Maximum 34 [493]
Control pressure Minimum (at corner power for EDC and FNR) bar [psi] 14 [203]
Minimum (at corner power for NFPE) 22 [319]
Maximum 40 [580]
Charge pump inlet
pressure
Rated bar (absolute) [in Hg vacuum] 0.7 [9]
Minimum (cold start) 0.2 [24]
Maximum bar [psi] 4.0 [58]
Case pressure Rated bar [psi] 3.0 [44]
Maximum 5.0 [73]
Lip seal external pressure Maximum bar [psi] 0.4 [5.8}
Fluid Specifications
Feature Unit
Viscosity Intermittent
1)
mm
2
/s [SUS] 5 [42]
Minimum 7 [49]
Recommended range 12-80 [66-370]
Maximum 1600 [7500]
Temperature
range
2
)
Minimum (cold start)
3
) °C [°F] -40 [-40]
Recommended range 60-85 [140-185]
Rated 104 [220]
Maximum intermittent
1)
115 [240]
Filtration
(recommended
minimum)
Cleanliness per ISO 4406-1999 22/18/13
Efficiency (charge pressure filtration) β-ratio β
15-20
= 75 (β
10
≥ 10)
Efficiency (suction and return line filtration) β
35-45
= 75 (β
10
≥ 2)
Recommended inlet screen mesh size µm 100 – 125
1)
Intermittent = Short term t < 1min per incident and not exceeding 2 % of duty cycle based load-life
2)
At the hottest point, normally case drain port
3)
Cold start = Short term t < 3min, p ≤ 50 bar [725 psi], n ≤ 1000 min-1(rpm)
T000 129E
Technical Information Series 90 Axial Piston Pumps
Technical Specifications
520L0603 • Rev 0804 • March 2016 9
Overview
This section defines the operating parameters and limitations for Series 90 pumps with regard to input
speeds and pressures. For actual parameters, refer to the Operating parameters for each displacement.
Input Speed
Minimum speed is the lowest input speed recommended during engine idle condition. Operating below
minimum speed limits the pump's ability to maintain adequate flow for lubrication and power
transmission.
Rated speed is the highest input speed recommended at full power condition. Operating at or below
this speed should yield satisfactory product life.
Maximum speed is the highest operating speed permitted. Exceeding maximum speed reduces product
life and can cause loss of hydrostatic power and braking capacity. Never exceed the maximum speed
limit under any operating conditions.
Operating conditions between Rated speed and Maximum speed should be restricted to less than full
power and to limited periods of time. For most drive systems, maximum unit speed occurs during
downhill braking or negative power conditions.
For more information consult Pressure and Speed Limits, BLN-9884, when determining speed limits for a
particular application.
During hydraulic braking and downhill conditions, the prime mover must be capable of providing
sufficient braking torque in order to avoid pump over speed. This is especially important to consider for
turbocharged and Tier 4 engines.
Independant Braking System
W
Warning
Unintended vehicle or machine movement hazard
Exceeding maximum speed may cause a loss of hydrostatic drive line power and braking capacity. You
must provide an independant braking system, redundant to the hydrostatic transmission, sufficient to
stop and hold the vehicle or machine in the event of hydrostatic drive power loss. The braking system
must also be sufficient to hold the machine in place when full power is applied.
System Pressure
System pressure is the differential pressure between high pressure system ports. It is the dominant
operating variable affecting hydraulic unit life. High system pressure, which results from high load,
reduces expected life. Hydraulic unit life depends on the speed and normal operating, or weighted
average, pressure that can only be determined from a duty cycle analysis.
Application pressure is the high pressure relief or pressure limiter setting normally defined within the
order code of the pump. This is the applied system pressure at which the drive-line generates the
maximum calculated pull or torque in the application.
Maximum working pressure is the highest recommended Application pressure. Maximum working
pressure is not intended to be a continuous pressure. Propel systems with application pressures at, or
below, this pressure should yield satisfactory unit life given proper component sizing.
Maximum pressure is the highest allowable Application pressure under any circumstance. Application
pressures above maximum working Pressure will only be considered with duty cycle analysis and factory
approval.
Pressure spikes are normal and must be considered when reviewing maximum working pressure.
Technical Information
Series 90 Axial Piston Pumps
Operating Parameters
10 520L0603 • Rev 0804 • March 2016
Minimum low loop pressure must be maintained under all operating conditions to avoid cavitation.
All pressure limits are differential pressures referenced to low loop (charge) pressure. Subtract low loop
pressure from gauge readings to compute the differential.
Servo Pressure
Servo pressure is the pressure in the Servo-system needed to position and hold the pump on stroke. It
depends on system pressure and speed.
At minimum servo pressure the pump will run at reduced stroke depending on speed and pressure.
Minimum servo pressure at corner power holds the pump on full stroke at max speed and max pressure.
Maximum servo pressure is the highest pressure typically given by the charge pressure setting.
Charge Pressure
An internal charge relief valve regulates charge pressure. Charge pressure supplies the control with
pressure to operate the swashplate and to maintain a minimum pressure in the low side of the
transmission loop. The charge pressure setting listed in the order code is the set pressure of the charge
relief valve with the pump in neutral, operating at 1800 min
-1
[rpm], and with a fluid viscosity of 32 mm
2
/s
[150 SUS]. Pumps configured with no charge pump (external charge supply) are set with a charge flow of
30 l/min. [7.93 US gal/min.] and a fluid viscosity of 32 mm2/s [150 SUS].
The charge pressure setting is referenced to case pressure. Charge pressure is the differential pressure
above case pressure.
Minimum charge pressure is the lowest pressure allowed to maintain a safe working condition in the
low side of the loop. Minimum control pressure requirements are a function of speed, pressure, and
swashplate angle, and may be higher than the minimum
charge pressure shown in the Operating parameters tables.
Maximum charge pressure is the highest charge pressure allowed by the charge relief adjustment, and
which provides normal component life. Elevated charge pressure can be used as a secondary means to
reduce the swashplate response time.
At normal operating temperature charge inlet pressure must not fall below rated charge inlet pressure
(vacuum).
Minimum charge inlet pressure is only allowed at cold start conditions. In some applications it is
recommended to warm up the fluid (e.g. in the tank) before starting the engine and then run the engine
at limited speed.
Maximum charge pump inlet pressure may be applied continuously.
Case Pressure
Under normal operating conditions, the rated case pressure must not be exceeded. During cold start
case pressure must be kept below maximum intermittent case pressure. Size drain plumbing accordingly.
Auxiliary Pad Mounted Pumps. The auxiliary pad cavity of S90 pumps configured without integral
charge pumps is referenced to case pressure. Units with integral charge pumps have auxiliary mounting
pad cavities referenced to charge inlet (vacuum).
C
Caution
Possible component damage or leakage
Operation with case pressure in excess of stated limits may damage seals, gaskets, and/or housings,
causing external leakage. Performance may also be affected since charge and system pressure are
additive to case pressure.
Technical Information
Series 90 Axial Piston Pumps
Operating Parameters
520L0603 • Rev 0804 • March 2016 11
External Shaft Seal Pressure
In certain applications the input shaft seal may be exposed to external pressure. In order to prevent
damage to the shaft seal the maximum differential pressure from external sources must not exceed 0.4
bar (5.8 psi) over pump case pressure. The case pressure limits of the pump must also be followed to
ensure the shaft seal is not damaged.
C
Caution
Regardless of the differential pressure across the shaft seal, the shaft seal has been known to pump oil
from the external source (e. g. gear box) into the pump case.
Temperature and Viscosity
Temperature
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 quoted rated temperature.
The maximum intermittent 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 of oil to flow 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.
Size heat exchangers to keep the fluid within these limits. Danfoss recommends testing to verify that
these temperature limits are not exceeded.
Viscosity
For maximum efficiency and bearing life, ensure the fluid viscosity remains in the recommended 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.
Technical Information
Series 90 Axial Piston Pumps
Operating Parameters
12 520L0603 • Rev 0804 • March 2016
Filtration System
To prevent premature wear, ensure only clean fluid enters the hydrostatic transmission circuit. A filter
capable of controlling the fluid cleanliness to ISO 4406 class 22/18/13
(SAE J1165) or better, under normal operating conditions, is recommended.
These cleanliness levels can not be applied for hydraulic fluid residing in the component housing/case or
any other cavity after transport.
The filter may be located on the pump (integral) or in another location (remote).
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 a filter 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 Beta ratio¹ (βX). For simple suction-filtered closed circuit
transmissions and open circuit transmissions with return line filtration, a filter
with a β-ratio within the range of β
35-45
= 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
considerably 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
15-20
=
75 (β
10
≥ 10) or better is typically required.
Because each system is unique, only a thorough testing and evaluation program can fully validate the
filtration system. Please see Design Guidelines for Hydraulic Fluid Cleanliness Technical Information,
520L0467 for more information.
1
Filter βx-ratio is a measure of filter efficiency defined by ISO 4572. 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.
W
Warning
Clogged filters can cause cavitation, which damages the charge pump. We recommend a filter bypass
with a filter bypass sensor to prevent damage due to blocked suction filters.
Filtration Options
Suction filtration – Option S
Suction filtration is the only option available for concrete pumps.
The suction filter is placed in the circuit between the reservoir and the inlet to the charge pump, as
shown below.
The use of a filter contamination monitor is recommended.
Technical Information
Series 90 Axial Piston Pumps
System Design Parameters
520L0603 • Rev 0804 • March 2016 13
Suction filtration
Charge pump
Filter
Hydraulic fluid reservoir
Adjustable
charge pressure relief valve
To pump case
To low
loop and
control
Manometer
P102 003E
C
Caution
Clogged filters can cause cavitation, which damages the charge pump. We recommend a filter bypass
with a filter bypass sensor to prevent damage due to blocked suction filters.
Charge pressure filtration (partial charge pump flow)
Two types of pressure filtration exist for most Series 90 pumps. The two types are: remote pressure
filtration (filter remotely mounted on vehicle) and integral pressure filtration (filter mounted to the
endcap). Verify option availability in the size specific technical information.
In either case the filtration circuit is the same with the filter element situated in the circuit downstream
the charge pump and upstream of the charge relief valve such that full charge flow is continuously
filtered, as shown in the accompanying illustrations. Charge pressure filtration can mitigate high inlet
vacuum in cold start-ups and provides fluid filtration immediately prior to entrance to the loop and the
control system. Pressure filtration provides a higher level of filtering efficiency than suction filtration.
Filters used in charge pressure filtration circuits must be rated to at least 35 bar [508 psi] pressure. A 100 –
125 μm screen located in the reservoir or in the charge inlet line is recommended when using charge
pressure filtration.
Technical data according to ISO 16889
Nominal flow at 30mm2/s and ∆P 0.5 bar[7.3 psi] (clean filter element only) Minimum β-ratio
Short 60 l/min β7.5(C)=75 (β5(C) ≥10)
Long 105 l/min
Remote charge pressure filtration
A special adapter head is available to allow for the charge filter to be located conveniently for easy
service and replacement. Care should be taken to minimize the hydraulic pressure drops associated with
long connecting lines, small diameter hoses, or restrictive port adaptors at the filter head or endcap.
Ensure the normal operating pressure drop across the remote filtration in and out ports is sufficiently
below the crack pressure setting of the recommended filter bypass valve.
Technical Information
Series 90 Axial Piston Pumps
System Design Parameters
14 520L0603 • Rev 0804 • March 2016
Charge pressure filtration
To pump case
Charge pump
Hydraulic fluid reservoir
Filter
To low
pressure
side and
control
Screen
Adjustable
charge pressure
relief valve
P102 004E
W
Warning
Remote filter heads without bypass and poor plumbing design can encounter excessive pressure drops
that can lead to charge pump damage in addition to contaminants being forced through the filter media
and into the transmission loop.
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 pump components.
Never mix hydraulic fluids of different types.
Reservoir
The hydrostatic system reservoir should accommodate maximum volume changes during all system
operating modes and promote de-aeration of the fluid as it passes through the tank. A suggested
minimum total reservoir volume is 5⁄8 of the maximum charge pump flow per minute with a minimum
fluid volume equal to ½ of the maximum charge pump flow per minute. 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.
Locate the reservoir outlet (charge pump inlet) above the bottom of the reservoir to take advantage of
gravity separation and prevent large foreign particles from entering the charge inlet line. A 100-125 μm
screen over the outlet port is recommended. Position the reservoir inlet (fluid return) to discharge below
the normal fluid level, toward the interior of the tank. A baffle (or baffles) will further promote de-aeration
and reduce surging of the fluid.
Case Drain
All single S90 pumps are equipped with multiple drain ports. Port selection and case drain routing must
enable the pump housing to maintain a volume of oil not less than half full and normal operating case
pressure limits of the unit are maintained. Case drain routing and design must consider unit case pressure
ratings.
A case drain line must be connected to one of the case outlets to return internal leakage to the system
reservoir.
Technical Information
Series 90 Axial Piston Pumps
System Design Parameters
520L0603 • Rev 0804 • March 2016 15
Do not over torque the fitting on case drain port L2 (located on the side cover). The proper torque is 100
N•m [74 lbf•ft] maximum. Over torquing the fitting may change the neutral position of the swashplate.
Pump Life
Pump life depends on several factors, such as speed, pressure, and swashplate angle. For detailed
product life calculation, please contact your Danfoss representative.
Charge Pump
Charge flow is required on all Series 90 pumps applied in closed circuit installations. The charge pump
provides flow to make up internal leakage, maintain a positive pressure in the main circuit, provide flow
for cooling and filtration, replace any leakage losses from external valving or auxiliary systems, and to
provide flow and pressure for the control system.
Many factors influence the charge flow requirements and the resulting charge pump size selection. These
factors include system pressure, pump speed, pump swashplate angle, type of fluid, temperature, size of
heat exchanger, length and size of hydraulic lines, control response characteristics, auxiliary flow
requirements, hydrostatic motor type, etc. When initially sizing and selecting hydrostatic units for an
application, it is frequently not possible to have all the information necessary to accurately evaluate all
aspects of charge pump size selection.
Unusual application conditions may require a more detailed review of charge pump sizing. Charge
pressure must be maintained at a specified level under all operating conditions to prevent damage to the
transmission. Danfoss recommends testing under actual operating conditions to verify this.
Charge pump sizing/selection
In most applications a general guideline is that the charge pump displacement should be at least 10 % of
the total displacement of all components in the system. Unusual application conditions may require a
more detailed review of charge flow requirements. Refer to Selection of Drive line Components, BLN-9885,
for a detailed procedure.
System features and conditions which may invalidate the 10 % guideline include (but are not limited to):
•
Continuous operation at low input speeds (< 1500 min-1 (rpm))
•
High shock loading and/or long loop lines
•
High flushing flow requirements
•
Multiple Low Speed High Torque motors
•
High input shaft speeds
Bearing Loads and Life
In vehicle propel drives with no external shaft loads , and where the system pressure and swashplate
angle are changing direction and magnitude regularly, the normal L20 bearing life (80% survival) will
exceed the hydraulic life of the unit.
In non-propel drives, such as vibratory drives, conveyor drives and fan drives, the operating speed and
pressure are often nearly constant and the swashplate angle is predominantly at maximum. These drives
have a distinct duty cycle compared to a propulsion drive. In these types of applications, a bearing life
review is recommended.
For bearing life, speed, pressure, swashplate angle, plus external loads will be considered. Other factors
that affect bearing life include fluid type, viscosity, and cleanliness.
Technical Information
Series 90 Axial Piston Pumps
System Design Parameters
16 520L0603 • Rev 0804 • March 2016
Applications with external shaft loads
External loads are found in applications where the pump is driven with a side/thrust load (belt drive or
gear drive) as well as in installations with misalignment and improper concentricity between the pump
and drive coupling. All external loads act to reduce bearing life.
In applications where you cannot avoid external radial shaft loads, orient the load to 0° or 180° position.
Use tapered output shafts or clamp-type couplings where radial shaft loads are present.
In addition, external thrust loads can reduce bearing life in systems with low delta pressure or in
combination with external radial loads/bending moments.
Re = Me / L
Me = Shaft moment
L = Flange distance
Re = External force
Radial load position
B
A
P108 549E
0°Re
90°
Re
270°
Re
180°Re
L
Re
Maximum allowable external shaft load
Parameter 042 055 075 100 130 180 250
External moment (Me)
N•m [lbf•in]
126
[1114]
101
[893]
118
[1043]
126
[1114]
140
[1238]
* *
* no tapered shaft available
If continuous applied external radial loads are 25% of the maximum allowable or more or thrust loads/
bending moments known to occur, contact your Danfoss representative for an evolution of bearing life.
Avoid external thrust loads in either direction.
Understanding and Minimizing System Noise
Noise is transmitted in fluid power systems in two ways: as fluid borne noise, and structure borne noise.
Fluid-borne noise (pressure ripple or pulsation) is created as pumping elements discharge oil into the
pump outlet. It is affected by the compressibility of the oil, and the pump's ability to transition pumping
elements from high to low pressure. Pulsations travel through the hydraulic lines at the speed of sound
(about 1400 m/s [4600 ft/sec] in oil) until there is a change (such as an elbow) in the line. Thus, amplitude
varies with overall line length and position.
Structure born noise is transmitted wherever the pump casing connects to the rest of the system. The
way system components respond to excitation depends on their size, form, material, and mounting.
System lines and pump mounting can amplify pump noise.
Follow these suggestions to help minimize noise in your application:
Technical Information
Series 90 Axial Piston Pumps
System Design Parameters
520L0603 • Rev 0804 • March 2016 17
•
Use flexible hoses.
•
Limit system line length.
•
If possible, optimize system line position to minimize noise.
•
If you must use steel plumbing, clamp the lines.
•
If you add additional support, use rubber mounts.
•
Test for resonants in the operating range; if possible avoid them.
Sizing Equations
The following equations are helpful when sizing hydraulic pumps. Generally, the sizing process is
initiated by an evaluation of the machine system to determine the required motor speed and torque to
perform the necessary work function. Refer to Selection of drive line components, BLN-9885, for a more
complete description of hydrostatic drive line sizing. First, the motor is sized to transmit the maximum
required torque. The pump is then selected as a flow source to achieve the maximum motor speed.
Output f ow Q = (l/min..)
Input torque M = (N•m)
Input power P = = (kW)
SI units V
g
= Displacement per revolution
(cm
3
/rev)
∆p = p
O
- p
i
(system pressure)
(bar)
n = Speed (min
-1
(rpm))
η
v
= Volumetric eff ciency
η
m
= Mechanical eff ciency
η
t
= Overall eff ciency (η
v
• η
m
)
V
g
• n • η
v
1000
V
g
• ∆p
20 • π • η
m
Q •∆p
600 •η
t
M • n • π
30 000
US units V
g
= Displacement per revolution
(in
3
/rev)
∆p = p
O
- p
i
(system pressure)
(psi)
n = Speed (min
-1
(rpm))
η
v
= Volumetric eff ciency
η
m
= Mechanical eff ciency
η
t
= Overall eff ciency (η
v
• η
m
)
Output f ow Q = (US gal/min..)
Input torque M = (lbf•in)
Input power P = = (hp)
V
g
• n • η
v
231
V
g
• ∆p
2 • π • η
m
Q •∆p
1714 • η
t
M • n • π
198 000
Mounting Flange Loads
Adding tandem mounted auxiliary pumps and/or subjecting pumps to high shock loads may result in
excessive loading of the mounting flange.
Applications which experience extreme resonant vibrations or shock may require additional pump
support. The overhung load moment for multiple pump mounting may be estimated using the formula
below.
Technical Information
Series 90 Axial Piston Pumps
System Design Parameters
18 520L0603 • Rev 0804 • March 2016
Overhung load example
First stageSecond stage
Third
stage
P108 511E
L1
L2
L3
F2 F1
F3
Estimated maximum and rated acceleration factors for some typical applications are shown in the table
below.
Estimating overhung load moments
Based on SI units
W = Mass of pump kg
L = Distance from mounting f ange
to pump center of gravity
(refer to Installation drawings section)
M
R
= g • G
R
(W
1
L
1
+ W
2
L
2
+ ... + W
n
L
n
)
M
S
= g • G
S
(W
1
L
1
+ W
2
L
2
+ ... + W
n
L
n
)
Where:
M
R
= Rated load moment N•m
M
S
= Shock load moment N•m
g = Gravity 9.81 m/s
2
G
R
= Calculation factor for rated (vibratory) acceleration (G’s)*
G
S
= Calculation factor for maximum shock acceleration (G’s)*
* This factor depends on the application (see next page).
M
R
= G
R
(W
1
L
1
+ W
2
L
2
+ ... + W
n
L
n
)
M
S
= G
S
(W
1
L
1
+ W
2
L
2
+ ... + W
n
L
n
)
Based on US units
W = Weight of pump [lb]
L = Distance from mounting f ange [in]
to pump center of gravity
Where:
M
R
= Rated load moment N•m
M
S
= Shock load moment N•m
Use these values for a rough load estimation in the absence of specific data.
Typical G loads for various applications
Application Calculation factor
Rated (vibratory)
acceleration G
R
Maximum (shock)
acceleration G
S
Skid Steer Loader 8 15-20
Trencher (rubber tires) 3 8
Asphalt Paver 2 6
Windrower 2 5
Aerial Lift 1.5 4
Turf Care Vehicle 1.5 4
Vibratory Roller 6 10
T000 165E
Technical Information Series 90 Axial Piston Pumps
System Design Parameters
520L0603 • Rev 0804 • March 2016 19
Allowable overhung load moment values are shown in the following table.
Allowable overhung load moments
Frame size Rated moment (MR) Shock load moment (MS)
N•m lbf•in N•m lbf•in
042 860 7600 3020 26 700
055 1580 14 000 5650 50 000
075 1580 14 000 5650 50 000
100 1580 14 000 5650 50 000
130 3160 28 000 10 730 95 000
180 6070 54 000 20 600 182 000
250 6070 54 000 20 600 182 000
Technical Information Series 90 Axial Piston Pumps
System Design Parameters
20 520L0603 • Rev 0804 • March 2016
Series 90 Master Model Code
R Size M P J G N F L H T W Y Z K
S90
Size
042 055 075 100 130 180 250
042 42 cc [2.56 in
3
] max. displacement per revolution O
055 55 cc [3.36 in
3
] max. displacement per revolution O
075 75 cc [4.58 in
3
] max. displacement per revolution O
100 100 cc [6.10 in
3
] max. displacement per revolution O
130 130 cc [7.93 in
3
] max. displacement per revolution O
180 180 cc [10.98 in
3
] max. displacement per revolution O
250 250 cc [15.26 in
3
] max. displacement per revolution O
R Type and Rotation
042 055 075 100 130 180 250
R Right Hand [CW] O O O O O O O
L Left Hand [CCW] O O O O O O O
M Controls
042 055 075 100 130 180 250
CA cover plate without feedback link, no control O O O O O O
DC 3 positon F-N-R solenoid control (12 V , DC) DIN- connector O O O O O O
DD 3 positon F-N-R solenoid control (24 V , DC) DIN- connector O O O O O O O
HF HDC 2, std. porting, 3,0 - 11 BAR (44 - 160 PSI) O O O O O O O
KA EDC, MS connector, std. porting, dual coil (14 - 85 mA) O O O O O O O
KN EDC, MS connector, std. porting, 643 Ohm single coil (4 - 20 mA) O O O O O O O
KT EDC, Deutsch connector, std porting, dual coil ( 14 - 85 mA) O O O O O O
KP EDC, Weatherpack connector, std. porting, dual coil (14 - 85mA) O O O O O O O
MA MDC O O O O O O O
MB MDC with neutral start switch O O O O O O O
FA
electrohydraulic displacement control without feedback link, 12V with AMP Minitimer
connector, proportional solenoid with pressure reducing valve ( 25 bar) (NFPE control)
O O O
FB
electrohydraulic displacement control without feedback link, 24V with AMP Minitimer
connector, proportional solenoid with pressure reducing valve ( 25 bar) (NFPE control)
O O O
FC
electrohydraulic displacement control without feedback link, 12V with AMP Minitimer
connector, proportional solenoid with pressure reducing valve ( 32 bar) (NFPE control)
O O O
FD
electrohydraulic displacement control without feedback link, 24V with AMP Minitimer
connector, proportional solenoid with pressure reducing valve ( 32 bar) (NFPE control)
O O O
FG
electrohydraulic displacement control without feedback link, 12V with AMP Minitimer
connector, proportional solenoid with pressure reducing valve ( 32 bar) fast response
(NFPE control)
O O O O
FH
electrohydraulic displacement control without feedback link, 24V with AMP Minitimer
connector, proportional solenoid with pressure reducing valve ( 32 bar) fast response
(NFPE control)
O O O O
FK
electrohydraulic displacement control without feedback link, 12V with AMP Minitimer
connector, proportional solenoid with pressure reducing valve ( 25 bar) (NFPE control)
O
FL
electrohydraulic displacement control without feedback link, 24V with AMP Minitimer
connector, proportional solenoid with pressure reducing valve ( 25 bar) (NFPE control)
O
FM
electrohydraulic displacement control without feedback link, 12V with AMP Minitimer
connector, proportional solenoid with pressure reducing valve ( 32 bar) fast response
(NFPE control)
O
FN
electrohydraulic displacement control without feedback link, 24V with AMP Minitimer
connector, proportional solenoid with pressure reducing valve ( 32 bar) fast response
(NFPE control)
O
Series 90 Master Model
Code
O
O
Technical Information Series 90 Axial Piston Pumps
Master Model Code
520L0603 • Rev 0804 • March 2016 21
P High Pressure Regulation
042 055 075 100 130 180 250
1 pressure limiter for port A and B (140-450 bar) O O O O O O O
2 high pressure relief valves for port A and B (90-450 bar) O O O O O O O
J Auxiliary Mounting Pad
042 055 075 100 130 180 250
AB SAE-A with sealed cover, 9 teeth coupling O O O O O O O
BB SAE-BB with sealed cover, 15 teeth coupling O O O O O O O
BC SAE-B with sealed cover, 13 teeth coupling O O O O O O O
CD SAE-C with sealed cover, 4 bolt adapter, 14 teeth coupling, (2) ½-13 UNC O O O O O O
DE SAE-D with sealed cover, 13 teeth coupling O O O
EF SAE-E with sealed cover, 13 teeth coupling O O
NN no auxiliary mounting pad O O O O O O O
G Endcap Ports
042 055 075 100 130 180 250
60 Side Ports O O O
80 Twin Ports O O O O O O O
N Filtration
042 055 075 100 130 180 250
D external charge pump O O O O O O O
L pressure integral (long f lter) O O O O O
P pressure integral (short f lter) O O O O O
R remote pressure O O O O
T remote pressure with SAE 1 1/16 thread ports for high f ow O O
S suction f ltration O O O O O O O
F Displacement Limitation
042 055 075 100 130 180 250
C no limiters, only for 180 cc O
M limitation both sides, only for 180 cc O
3 no limiters O O O O O O
4 limitation both sides O O O O O O
7
no limiters, spec. servo cylinder at side 1 with hard spring (only for pumps with NFPE-
controls)
O O O O O O
R Size M P J G N F L H T W Y Z K
S90
Series 90 Master Model
Code (continued)
Technical Information Series 90 Axial Piston Pumps
Master Model Code
22 520L0603 • Rev 0804 • March 2016
Series 90 Master Model
Code (continued)
L Shaft Options
042 055 075 100 130 180 250
C3 splined shaft, 15 teeth, pitch = 16 / 32 O
C6 splined shaft, 21 teeth, pitch = 16 / 32 O O O
C7 splined shaft, 23 teeth, pitch = 16 / 32 O O
C8 splined shaft, 27 teeth, pitch = 16 / 32 O O O
F1 splined shaft, 13 teeth, pitch = 8 / 16 O O O O
S1 splined shaft, 14 teeth, pitch = 12/24 O O O
G1 splined shaft , 25 teeth, pitch = 20 / 40 O O
T1 tapered shaft diameter = 34,925 MM O O
T6 tapered shaft diameter = 38,100 MM O O
T8 tapered shaft diameter = 25,400 MM O
T4 tapered shaft diameter = 44,450 MM O
H Charging System
042 055 075 100 130 180 250
B nominal f ow = 11 cc / rev O O
C nominal f ow = 14 cc / rev O O O
D nominal f ow = 17 cc / rev O O O
E nominal f ow = 20 cc / rev O O
F nominal f ow = 26 cc / rev O O
H nominal f ow = 34 cc / rev O O
J nominal f ow = 47 cc / rev O O
K nominal f ow = 65 cc / rev O
L
external charge pump with internal charge pressure relief valve for units with auxiliary
mounting pad
O O O O O O O
N
external charge pump with internal charge pressure relief valve for units with no
auxiliary mounting pad
O O O O O O
R Size M P J G N F L H T W Y Z K
S90
Technical Information Series 90 Axial Piston Pumps
Master Model Code
520L0603 • Rev 0804 • March 2016 23
Series 90 Master Model
Code (continued)
R Size M P J G N F L H T W Y Z K
S90
T Control Orif ce Options
MDC
inlet P drain TA drain TB servo A servo B 042 055 075 100 130 180 250
00 n/o 1.6 *) 1.6 *) n/o n/o O O O O O O O
03 0.81 1.6 *) 1.6 *) n/o n/o O O O O O O O
05 1.37 1.6 *) 1.6 *) n/o n/o O O O O O O O
C5 0.81 1.4 1.4 n/o n/o O O O O O O O
C6 1.02 1.4 1.4 n/o n/o O O O O O O O
*) No orif ce installed in control, orif ce hole in contro spool
If further orif ce options are needed, please contact your Danfoss representative
EDC
inlet P drain TA drain TB servo A servo B 042 055 075 100 130 180 250
00 (1) n/o 1.3 1.3 n/o n/o O O O O O O O
03 (1) 0.81 1.3 1.3 n/o n/o O O O O O O O
05 (1) 1.37 1.3 1.3 n/o n/o O O O O O O O
33 0.81 n/o n/o n/o n/o O O O O O O O
FNR
inlet P drain T servo A servo B 042 055 075 100 130 180 250
G1 n/o 1.2 n/o n/o O O O O O O O
G4 0.46 1.2 n/o n/o O O O O O O O
G8 0.66 1.2 n/o n/o O O O O O O O
GB 0.81 1.2 n/o n/o O O O O O O O
GD 1.57 1.2 n/o n/o O O O O O O O
HDC
inlet P drain TA drain TB servo A servo B 042 055 075 100 130 180 250
00 (1) n/o 1.3 1.3 n/o n/o O O O O O O O
03 (1) 0.81 1.3 1.3 n/o n/o O O O O O O O
05 (1) 1.37 1.3 1.3 n/o n/o O O O O O O O
NFPE
inlet P drain T servo A servo B 042 055 075 100 130 180 250
B1 n/o 1.5 n/o n/o O O O O O O O
B2 n/o n/o 1.2 1.2 O O O O O O O
B6 n/o n/o n/o n/o O
Technical Information Series 90 Axial Piston Pumps
Master Model Code
24 520L0603 • Rev 0804 • March 2016
Y High Pressure Setting A
042 055 075 100 130 180 250
26 260 bar O O O O O O O
32 320 bar O O O O O O O
35 350 bar O O O O O O O
38 380 bar O O O O O O O
40 400 bar O O O O O O O
42 420 bar O O O O O O O
Z High Pressure Setting B
042 055 075 100 130 180 250
26 260 bar O O O O O O O
32 320 bar O O O O O O O
35 350 bar O O O O O O O
38 380 bar O O O O O O O
40 400 bar O O O O O O O
42 420 bar O O O O O O O
Series 90 Master Model
Code (continued)
K Charge Pressure Setting
042 055 075 100 130 180 250
20 20 bar O O O O O O O
22 22 bar O O O O O O O
24 24 bar O O O O O O O
26 26 bar O O O O O O O
28 28 bar O O O O O O O
30 30 bar O O O O O O O
32 32 bar O O O O O O
34 34 bar O O O O O
W Special Hardware Features
042 055 075 100 130 180 250
EEG speedring, no sensor, CP30 +4,3° valve plate O O O O O
EFC speed sensing, Turck connector (KPPx156), CP15° +0,5° valve plate O O O O
EFI speed sensing, Turck connector (KPPx156), CP30° +4,3° valve plate O O O O O O O
FAC nested t- bar springs, CP15 +1,5° valve plate O O O O O
FAD nested t- bar springs, CP15 +0,5° valve plate O O O O O
GBA CP15 +0,5° valve plate O O O O O
GCA CP15 +1,5° valve plate O O O O O O
GLA CP30 +4,3° valve plate, CP30 valve plate O O O O O O O
NNN
180cc: CP15 +0,5° valve plate
250cc: CP15 +1,5° valve plate , nested T- bar springs
O O
R Size M P J G N F L H T W Y Z K
S90
Technical Information Series 90 Axial Piston Pumps
Master Model Code
520L0603 • Rev 0804 • March 2016 25
3-Position (FNR) Electric Control - DC, DD
The 3-Position (FNR) control uses an electric input signal to switch the pump to a full stroke position. To
use the FNR control in a PLUS+1 Guide application, download HWD file 10106826 from
www.Danfoss.com/PLUS+1.
W
Warning
Avoid designing a system which places the swashplate into full stroke when control operation is blocked
by contamination.
Solenoid connector
1 2
Not connected
Voltage between terminals 1 and 2
DANFOSS
mating parts kit
Part No. K09129
Solenoid plug face for DIN 43650 connector
P102 022
Pump displacement vs. electrical signal
"0"
Voltage VDC
Displacement
100 %
b
100 %
-b
P102 023
3-position electric control hydraulic schematic
Technical Information
Series 90 Axial Piston Pumps
Control Options
26 520L0603 • Rev 0804 • March 2016
M5
a
b
M4
T
P
P102021
Solenoid Data
Code Voltage Current Connector
DC 12 Vdc 340 mA DIN 46350
DD 24 Vdc 170 mA DIN 46350
A
P108 495E
B
Response time
The time required for the pump to change from zero to full flow (acceleration), or full flow to zero
(deceleration), is a function of the size of the orifice, the charge pressure, valve plates and other vehicle
dynamics.
A range of orifice sizes are available for the Series 90 FNR Control to assist in matching the rate of
swashplate response to the acceleration and deceleration requirements of the application. Testing
should be carried out to determine the proper orifice selection for the desired response. For more
information regarding response time for individual orifices, please contact your Danfoss representative.
Pump output flow direction vs. control signal
Input shaft rotation CW CCW
Signal at solenoid A B A B
Port A flow (M1) Out In In Out
Port B flow (M2) In Out Out In
Servo cylinder (side) M5 (2) M4 (1) M5 (2) M4 (1)
W
Warning
Avoid designing a system which puts the swashplate into full stroke when control operation is blocked
by contamination.
Electric Displacement Control (EDC), Options KA, KP, KT
The electric displacement control uses an electrohydraulic Pressure Control Pilot (PCP) valve to control
the pilot pressure. The PCP converts an electrical input signal to a hydraulic input signal to operate a 4-
way servo valve, which ports hydraulic pressure to either side of a double acting servo piston. The servo
Technical Information
Series 90 Axial Piston Pumps
Control Options
520L0603 • Rev 0804 • March 2016 27
piston tilts the cradle swashplate, thus varying the pump's displacement from full displacement in one
direction to full displacement in the opposite direction.
The control has a mechanical feedback mechanism which moves the servo valve in relation to the input
signal and the angular position of the swashplate. The electrical displacement control is designed so the
angular rotation of the swashplate (pump displacement) is proportional to the electrical input signal. Due
to normal operating force changes, the swashplate tends to drift from the position preset by the machine
operator. Drift, sensed by feedback linkage system connecting the swashplate to the control valve, will
activate the valve and supply pressure to the servo piston, maintaining the swashplate in its preset
position.
Features and Benefits
•
The electric displacement control is a high gain control: With only a small change of the input current,
the servo valve moves to a full open position thus porting maximum flow to the servo cylinder.
•
Oil filled PCP case lengthens control life by preventing moisture ingression and dampening
component vibrations.
•
All electrical displacement controls are equipped with dual coil PCPs. The user has the option of using
a single coil or both coils (in series or parallel).
•
Internal mechanical stops on the servo valve allow rapid changes in input signal voltages without
damaging the control mechanism.
•
Precision parts provide repeatable accurate displacement settings.
•
The swashplate is coupled to a feedback mechanism. The control valve drains the ends of the servo
piston when an electric input signal is not present.
Benefits
•
Pump returns to neutral after prime mover shuts down
•
Pump returns to neutral if external electrical input signal fails or if there is a loss of charge pressure
Electric displacement control schematic
M5 M4
T
P
X2 X1
P102 024E
Feedback from
swashplate
Technical Information
Series 90 Axial Piston Pumps
Control Options
28 520L0603 • Rev 0804 • March 2016
Cross-section
T
P
TM4 M5
P C P
X2
X1
P102 025
To use the EDC control in a PLUS+1 Guide application, download HWD file 10106626 from
www.Danfoss.com/Plus1.
Electrical Characteristics
7 mA with 0.25 Vdc
43 mA with 1.55 Vdc
Clockwise
Clockwise
Counterclockwise
Counterclockwise
Start Current
Full Stroke Current
Start Current
Full Stroke Current
T
F
A
H
S
P
M
U
P
N
O
I
T
A
T
O
R
L
A
C
I
R
T
C
E
L
E
S
T
N
E
M
E
R
I
U
Q
E
R
A or C
B or D
A and C A
D
One of Dual Coils
Dual Coils in Parallel
Dual Coils in Series
A
B
B
A
Produces
Flow Out of
Pump Port
A or C
A and C
A
B or D
B and D
D
B and D
14 mA with 0.13 Vdc
85 mA with 0.75 Vdc
A B C D
+ phasing to terminals
B C DA
+ phasing to terminals
B C DA
+ phasing to terminals
A/B 14 mA
± 3 mA
A/B 85 mA
± 11 mA
C/D 14 mA
± 3 mA
C/D 85 mA
± 11 mA
P108 497E
with 1.7 Vdc
with 0.3 Vdc
with 0.23 Vdc
with 1.36 Vdc
The EDC is designed to be controlled from a DC current source or voltage source. Pulse width modulation
(PWM) is not required. If a PWM signal is used to carry frequency greater than 200 Hz, do not use a pulse
current of more than 120% of that required for full output.
Control signal requirements
Recommended PWM signal is 200 Hz, avoid exceeding 440 Hz.
W
Warning
Maximum input current under any condition: 250 mA
PWM frequency: 200 Hz
Coil resistance at 24°C [75°F]:
A-B coil 20 Ω
C-D coil 16 Ω
Technical Information
Series 90 Axial Piston Pumps
Control Options
520L0603 • Rev 0804 • March 2016 29
MS connector (option KA) MS 3102C-14S-2P
A
B
D
C
Danfoss
mating parts kit
Part no. K01588
Ident No. 615062
P102 027E
Packard® Weather-Pack (option KP) 4-way shroud connector
B
C
D
Danfoss
mating parts kit
Part no. K03384
(female terminals)
A
P102 028E
Pump displacement vs. control current
"0"
Current mA
Displacement
100 %
a b
-b -a
100 %
P102 026E
Deutsch DT Series connector (option KT)
4 pin Deutsch® Plug DT Series Connector
1
3
2
4
P108 815E
Danfoss
mating parts kit
Part no. K23511
(D)
(C)
(A)
(B)
Technical Information
Series 90 Axial Piston Pumps
Control Options
30 520L0603 • Rev 0804 • March 2016
Response time
The time required for the pump output flow to change from zero to full flow (acceleration) or full flow to
zero (deceleration) is a function of the size of the orifice in the control flow passage, charge pressure,
valve plate and other vehicle dynamics.
A range of orifice sizes is available for the Series 90 Electric Displacement Control to assist in matching the
rate of swashplate response to the acceleration and deceleration requirements of the application. Testing
should be carried out to determine the proper orifice selection for the desired response.
For more information regarding response times for individual orifices, contact your Danfoss
representative.
Pump output flow direction vs. control current
EDC using a single coil or dual coils in parallel (A and C common, B and D common)
Input shaft rotation CW CCW
Positive current to term A or C B or D A or C B or D
Port A flow (M1) Out In In Out
Port B flow (M2) In Out Out In
Servo cylinder (side) M5 (2) M4 (1) M5 (2) M4 (1)
EDC using a dual coil in series (B and C common)
Input shaft rotation CW CCW
Positive current to term A D A D
Port A flow (M1) Out In In Out
Port B flow (M2) In Out Out In
Servo cylinder (side) M5 (2) M4 (1) M5 (2) M4 (1)
Refer to Installation Drawings on page 50 for port locations.
For further information on EDC controls, refer to Electrical Displacement Control For Series 90 Pumps,
BLN-95-9060.
Manual Over Ride (MOR)
EDC controls are available with a Manual Over Ride (MOR) which is intended for temporary actuation of
the control to aid in pump diagnostics.
W
Warning
Using the MOR to control the pump will not result in proportional control.
Refer to the control flow table in the size specific technical information manual for the relationship of
solenoid to direction of flow.
W
Warning
The vehicle must always be in a safe condition (i.e. vehicle lifted off the ground) when using the MOR
function. The MOR lever has a must be manually actuated to be engaged. Moving the plunger
mechanically moves the pilot stage armature which allows the pump to go on stroke. The MOR should be
engaged anticipating a full stroke response from the pump.
Technical Information
Series 90 Axial Piston Pumps
Control Options
520L0603 • Rev 0804 • March 2016 31
Pump Phasing With EDC Manual Operator (MOR)
Pump
MOR
Rotation
Pump Flow
troP tuOnoitatoR
CW
Towards Connector
Towards Connector
B
AWCC
P108 498E
P108 496E
EDC Second Stage
Manual Over Ride (MOR)
EDC Pilot Stage (PCP)
W
Warning
Unintended MOR operation will cause the pump to go into stroke.
Hydraulic Displacement Control (HDC), Option HF
W
Warning
Avoid designing a system which puts swashplate into full stroke when control operation is blocked by
contamination.
Operation
The hydraulic displacement control uses a hydraulic input signal to operate a 4-way servo valve, which
ports hydraulic pressure to either side of a double acting servo piston. The servo piston tilts the cradle
swashplate, thus varying the pump's displacement from full displacement in one direction to full
displacement in the opposite direction.
The control has a mechanical feedback mechanism which moves the servo valve in relation to the input
signal and the angular rotation of the swashplate. The hydraulic displacement control is designed so the
angular position of the swashplate (pump displacement) is proportional to the hydraulic input signal
pressure. Due to normal operating force changes, the swashplate tends to drift from the position preset
by the machine operator. Drift, sensed by feedback linkage system connecting the swashplate to the
control valve, activates the valve to supply pressure to the servo piston, maintaining the swashplate in its
preset position.
Features and Benefits
•
The hydraulic displacement control is a high gain control: With only small change of the input signal,
the servo valve moves to a full open position porting maximum flow to the servo cylinder.
Technical Information
Series 90 Axial Piston Pumps
Control Options
32 520L0603 • Rev 0804 • March 2016
•
Internal mechanical stops on the servo valve allow rapid changes in input signal pressure without
damaging the control mechanism.
•
Precision parts provide repeatable, accurate displacement settings with a given input signal.
•
The swashplate is coupled to a feedback mechanism. The control valve drains the ends of the servo
piston when an input signal is not present.
Benefits:
•
Simple - low cost design.
•
Pump returns to neutral after prime mover shuts down.
•
Pump returns to neutral if there is a loss of input signal pressure or if there is a loss of charge pressure.
Hydraulic displacement control schematic
M5 M4
T
P
Feedback
from
swashplate
X2
X1
P102029
Cross-section
T
M4 P
M5
T
P102 030
X1 X2
W
Warning
Maximum allowable signal pressure is 60 bar [870 psi]. Exceeding allowable signal pressure will cause
damage to the control.
Response time
The time required for the pump output flow to change from zero to full flow (acceleration) or full flow to
zero (deceleration) is a function of the size of the orifice in the control flow passage, charge pressure,
valve plates and other vehicle dynamics.
A range of orifice sizes are available for the Series 90 hydraulic displacement control to assist in matching
the rate of swashplate response to the acceleration and deceleration requirements of the application.
Testing should be carried out to determine the proper orifice selection for the desired response.
For more information regarding response time for individual orifices, please contact your Danfoss
representative.
Technical Information
Series 90 Axial Piston Pumps
Control Options
520L0603 • Rev 0804 • March 2016 33
Pump displacement vs. signal pressure
"0"
Signal pressure
Displacement
100 %
a b
-b -a
100 %
P102 031E
Hydraulic signal pressure range*
a 3 ± 0.5 bar [43 ± 6 psi]
b 11 ± 0.5 bar [160 ± 6 psi]
Pump output flow direction vs. control pressure
Pump output flow direction vs. control pressure
Input shaft rotation CW CCW
Control pressure to port X1 X2 X1 X2
Port A flow (M1) Out In In Out
Port B flow (M2) In Out Out In
Servo cylinder (side) M5 (2) M4 (1) M5 (2) M4 (1)
Refer to Installation Drawings on page 50, for port locations.
Manual Displacement Control (MDC), Options MA, MB
W
Warning
Avoid designing a system which puts swashplate into full stroke when control operation is blocked by
contamination.
The manual displacement control converts a mechanical input signal to a hydraulic signal that tilts the
cradle swashplate through an angular rotation varying the pump's displacement from full displacement
in one direction to full displacement in the opposite direction.
The manual displacement control has a mechanical feedback mechanism which moves a servo valve in
the proper relationship to the input signal and the angular position of the swashplate. The control is
designed so that the angular rotation of the swashplate is proportional to the mechanical input signal.
The control is designed with an internal override mechanism which allows the mechanical input to be
moved at a faster rate than the movement of the swashplate without damage to the control.
Features and benefits
•
Precision parts provide repeatable, accurate displacement settings with a given input signal.
Technical Information
Series 90 Axial Piston Pumps
Control Options
34 520L0603 • Rev 0804 • March 2016
•
The manual displacement control is a high gain control: With only small movement of the control
handle (input signal), the servo valve moves to full open position porting maximum flow to the servo
cylinder. This is a high response system with low input force.
•
The integral override mechanism allows rapid changes in input signal without damaging the control
mechanism.
•
Precision parts provide repeatable, accurate displacement settings with a given input signal.
•
The double-acting servo piston is coupled to a spring centering mechanism. The servo control valve is
spring centered such that with no input signal the servo valve is open centered and thus no fluid is
ported to the servo cylinder.
Benefits:
•
- Pump returns to neutral after prime mover shuts down.
•
- Pump returns to neutral if external control linkage fails at the control handle or if there is a loss of
charge pressure.
Manual displacement control schematic
M4
M5
T P
Feedback
from
swashplate
A – 0 – B
Switch
Neutral
Start
P102 035E
Cross-section
T
M5 P
M4
T
Control handle input signal
P102 033E
External control handle requirements
•
Torque required to move handle to maximum displacement is 0.68 to 0.9 N•m [6 to 8 lbf•in].
•
Torque required to hold handle at given displacement is 0.34 to 0.57 N•m [3 to 5 lbf•in].
•
Torque required to overcome the override mechanism is 1.1 to 2.3 N•m [10 to 20 lbf•in] with the
maximum torque required for full forward to full reverse movement.
•
Maximum allowable input torque is 17 N•m [150 lbf•in].
Pump displacement vs. control lever rotation
Technical Information
Series 90 Axial Piston Pumps
Control Options
520L0603 • Rev 0804 • March 2016 35
0
Lever rotation
A
Displacement
100 %
a
-a
100 %
B
-b
b
P102 034E
-35 max.
35 max.
Control lever rotation range
a 0,5° - 4.5°
b 24° - 30°
Volumetric efficiencies of the system will have impacts on the start- and end input- commands.
Response Time
The time required for the pump output flow to change from zero to full flow (acceleration) or full flow to
zero (deceleration) is a function of the size of the orifice and charge pressure in the control, charge
pressure, valve plates and other vehicle dynamics.
A range of orifice sizes is available for the Series 90 manual displacement control to assist in matching the
rate of swashplate response to the acceleration and deceleration requirements of the application. Testing
should be carried out to determine the proper orifice selection for the desired response. For more
information regarding response time for individual orifices, please contact your Danfoss representative.
Pump output flow direction vs. control handle rotation
MDC handle rotation parameters
"B"
"A"
30°
minimum
30°
minimum
Neutral
position
Maximum
displacement
Maximum
displacement
P108 550E
Technical Information
Series 90 Axial Piston Pumps
Control Options
36 520L0603 • Rev 0804 • March 2016
Pump output flow direction vs. control handle rotation
Input shaft rotation CW CCW
Handle rotation A B A B
Port A flow (M1) Out In In Out
Port B flow (M2) In Out Out In
Servo cylinder (side) M5 (2) M4 (1) M5 (2) M4 (1)
Refer toInstallation Drawings on page 50 for handle connection requirements
MDC with Neutral Start Switch (NSS)
The neutral start switch (NSS) stops the prime mover from starting unless the pump is in neutral. When
the control is not in neutral position, the switch is disengaged, and the prime mover will not start. When
the control is in neutral position, the switch is engaged, allowing the prime mover to start.
MDC with neutral start switch
Neutral Start Switch
Eccentric Plug
Switch Pin
Special Lock Nut
for Eccentric Plug
Switch Lock Nut
Control Shaft
Switch Cam
P108 499E
Non Feedback Proportional Electric Control (NFPE)
The Non Feedback Proportional Electric (NFPE) control is an electrical automotive control in which an
electrical input signal activates one of two proportional solenoids that port charge pressure to either side
of the pump servo cylinder. The NFPE control has no mechanical feedback mechanism.
The pump displacement is proportional to the solenoid signal current, but it also depends upon pump
input speed and system pressure. This characteristic also provides a power limiting function by reducing
the pump swashplate angle as system pressure increases.
Control response
Series 90 controls are available with optional control passage orifices to assist in matching the rate of
swashplate response to the application requirements (e.g. in the event of electrical failure). Software
ramp or rate limiting should be used to control vehicle response in normal operation. The time required
for the pump output flow to change from zero to full flow (acceleration) or full flow to zero (deceleration)
is a net function of spool porting, orifices, charge pressure, valve plates and other vehicle dynamics. A
swashplate response table is available for each frame indicating available swashplate response times.
Testing a prototype system to verify the software and orifice selection provide the desired response.
Series 90 pumps have many orificing combinations, however, software is the best means of controling
the swashplate response in normal operating conditions. Mechanical servo orifices should be used only
for fail-safe return to neutral in the event of an electrical failure.
Technical Information
Series 90 Axial Piston Pumps
Control Options
520L0603 • Rev 0804 • March 2016 37
Pump Displacement vs. Input Signal
"0"
Signal Current
mA(DC)
a b c
a
b
c
Displacement
100 %
100 %
NFPE control
∆p = 300 bar
∆p = 300 bar
∆p = 0 bar
∆p = 0 bar
P003 187E
NFPE Schematic
B
A
M5
M4
M3
M1
M2
L1
S
L2
M6
P003 174
NFPE control used with a Danfoss microcontroller
•
Creep mode
•
Two automotive control ramps via mode switch
•
Engine overspeed protection
•
Electric control
•
Anti-stall function
•
Smooth operation
Technical Information
Series 90 Axial Piston Pumps
Control Options
38 520L0603 • Rev 0804 • March 2016
•
Electronic ramp control is superior to hydraulic control with orifices
Input signal requirements
The NFPE control requires a pulse-width-modulated (PWM) input current to optimize performance. The
recommended PWM frequency is 100 Hz. The minimum PWM frequency is 80 Hz.
Solenoid data
Option FA FB FC FD FK FL FM FN FG FH
Frame Size 42cc, 55cc, 100cc 75cc 75cc, 100cc, 130cc,
180cc
Voltage [V] 12 24 12 24 12 24 12 24 12 24
32Working Pressure [Bar] 25 25 32 32 25 25 25 32 32 32
Maximum Current [mA] 1500 750 1500 750 1500 750 1500 750 1500 750
Start Current [mA] 440 220 440 220 440 220 440 220 440 220
End Current [mA] 1290 645 1280 645 1290 645 1290 645 1290 645
Coil Resistance [Ohm] 4.72±5% 20.8±5% 5.3±5% 21.2±5% 4.72±5% 4.72±5% 4.72±5% 4.72±5% 4.98±3% 20.6±3%
PWM Range [Hz] 70-200 70-200 70-200
PWM Prefered [Hz] 200 200 200
Protection Class up to IP6K6/IPX7/IPX9K up to IP6K6/IPX7/IPX9K IP65 DIN 40050
Connector Amp Junior Timer AMP Junior Timer Amp Junior Timer
* PWM Signal Required for Optimum Control Performance.
To use the NFPE control in a PLUS+1 application, download the appropriate file from www.Danfoss.com/
PLUS+1.
NFPE pump displacement vs. input signal
Shaft rotation CW CCW
Active solenoid 1 and A 2 and B 1 and A 2 and B
Port A flow Out In In Out
Port B flow In Out Out In
Servo cylinder M5 M4 M5 M4
The NFPE control uses an AMP® Junior Power Timer connector. The solenoids are compatible with
Danfoss microcontrollers and joysticks.
P108 500E
2
1
Amp Junior Power Timer
2 Pin Connector
(Male Terminal)
Mating Connector:
Danfoss
Identification Number
10102040
Technical Information
Series 90 Axial Piston Pumps
Control Options
520L0603 • Rev 0804 • March 2016 39
Multi-Function Valves
Overpressure protection
The Series 90 pumps are designed with a sequenced pressure limiting system and high pressure relief
valves. When the preset pressure is reached, the pressure limiter system acts to rapidly de-stroke the
pump to limit the system pressure. For unusually rapid load application, the high pressure relief valve is
also available to limit the pressure level. The pressure limiter sensing valve acts as the pilot for the relief
valve spool, such that the relief valve is sequenced to operate above the pressure limiter level.
Both the pressure limiter sensing valves and relief valves are built into the multi-function valves located
in the pump endcap. The sequenced pressure limiter/high pressure relief valve system in the Series 90
provides an advanced design of overpressure protection.
The pressure limiter avoids system overheating associated with relief valves and the sequenced relief
valves are available to limit pressure spikes which exist in severe operating conditions.
Because the relief valves open only during extremely fast pressure spike conditions, heat generation is
minimized during the short time that they might be open. For some applications, such as dual path
vehicles, the pressure limiter function may be defeated such that only the relief valve function remains.
The relief response is approximately 20 ms whether used with or without the pressure limiter function.
Pressure limiting function
When set pressure is exceeded, the pressure sensing valve (A) flows oil through passage (B) and across an
orifice in the control spool raising pressure on the servo which was at low pressure. Servo pressure relief
valves (C) limit servo pressure to appropriate levels. The pressure limiter action cancels the input
command of the displacement control and tends to equalize servo pressure. Swashplate moments assist
to change the displacement as required to maintain system pressure at the set point. The HPRV is always
set 30 bar above the pressure limiter setting.
HPRVs are factory set at a low flow condition. Any application or operating condition which leads to
elevated HPRV flow will cause a pressure rise with flow above a valve setting. Consult factory for
application review. Excessive operation of the HPRV will generate heat in the closed loop and may cause
damage to the internal components of the pump.
Multifunction valve, pressure limiter, pressure regulation, option 1
M
B
L2
M2
M1
M4
M5
M3
A
S
Charge
pressure
relief valve
Multifunction valve
Multifunction valve
To control
Servo piston
Servo piston
Port A
Port B
C
Bypass hex
adjustment
P102 007E
Servo pressure
relief valves
A
B
Technical Information
Series 90 Axial Piston Pumps
Features and Options
40 520L0603 • Rev 0804 • March 2016
Bypass Function
In some applications it is desirable to bypass fluid around the variable displacement pump when pump
shaft rotation is either not possible or not desired. For example, an inoperable vehicle may be moved to a
service or repair location or winched onto a trailer without operating the prime mover. To provide for
this, Series 90 pumps are designed with a bypass function.
The bypass is operated by mechanically rotating the bypass hex on both multifunction valves three (3)
turns counterclockwise (CCW). This connects working loop A and B and allows fluid to circulate without
rotating the pump and prime mover.
W
Warning
Excessive speeds and extended load/vehicle movement must be avoided while moving in bypass
function. The load or vehicle should be moved not more than 20 % of maximum speed and for a duration
not exceeding 3 minutes. Damage to drive motor(s) is possible. When the bypass function is no longer
needed care should be taken to re-seat the HPRV hex plugs to the normal operating position.
W
Warning
Possible pump and/or motor damage.
Bypass valves are intended for moving a machine or vehicle for very short distances at very slow speeds.
They are NOT intended as tow valves.
Auxiliary Mounting Pads
Auxiliary mounting pad specifications
Mounting pad Option code Spline coupling Frame size/Maximum torque N•m [lbf•ft]
042 055 075 100 130 180 250
SAE A AB 9T 16/32 169 [125] 93 [69] 97 [72] 97 [72] 106 [78] 120 [89] 120 [89]
SAE B BC 13T 16/32 283 [209] 204 [150] 211 [156] 211 [156] 334 [246] 324 [239] 324 [239]
SAE B-B BB 15T 16/32 301 [222] 342 [252] 281 [207] 281 [207] 368 [271] 368 [271] 368 [271]
SAE C CD 14T 12/24 n/a 408 [301] 447 [330] 447 [330] 741 [546] 628 [463] 624 [460]
SAE D DE 13T 8/16 n/a n/a n/a n/a 741 [546] 1070 [789] 1070 [789]
SAE E EF 13T 8/16 n/a n/a n/a n/a n/a 1070 [789] 1070 [789]
SAE E EG 27T 16/32 n/a n/a n/a n/a n/a 1220 [900] 1220 [900]
Mating pump requirements
The accompanying drawing provides the dimensions for the auxiliary pump mounting flange and shaft.
Pump mounting flanges and shafts with the dimensions noted below are compatible with the auxiliary
mounting pads on the Series 90 pumps. An O-ring is required when a pump is bolted to an aux pad. Refer
to outline drawings for more details and O-ring dimensions.
Technical Information
Series 90 Axial Piston Pumps
Features and Options
520L0603 • Rev 0804 • March 2016 41
Auxiliary pump mounting flange and shaft
Ø P
0
-0.05
[+0.000]
[-0.002]
F
min.
Minimum spline
engagement
D
B
max.
E
Mounting flange
(Ref)
Coupling
0.8 [0.03] R
preferred
P102 015E
Auxiliary pump dimensions
Flange size Units P diameter B maximum D F minimum
SAE A mm [in] 82.55
[3.25]
7.4
[0.29]
32
[1.26]
13.5
[0.53]
SAE B 101.6
[4.00]
10.7
[0.42]
41
[1.61]
14.2
[0.56]
SAE B-B 101.6
[4.00]
10.7
[0.42]
46
[1.81]
16.1
[0.63]
SAE C 127.0
[5.00]
14.3
[0.56]
56
[2.20]
18.3
[0.72]
SAE D 152.4
[6.00]
14.3
[0.56]
75
[2.95]
20.8
[0.82]
SAE E
13 teeth
165.1
[6.50]
18.0
[0.71]
75
[2.95]
20.8
[0.82]
SAE E
27 teeth
165.1
[6.50]
18.0
[0.71]
75
[2.95]
27.0
[1.06]
Displacement Limiter
All Series 90 pumps are designed with optional mechanical displacement (stroke) limiters.
The maximum displacement of the pump can be set independently for forward and reverse using the
two adjustment screws.
W
Warning
Adjusting the displacement limiter with the machine running may result in leakage. If backed out too far,
the adjustment screw will come completely out of its threaded bore.
Technical Information
Series 90 Axial Piston Pumps
Features and Options
42 520L0603 • Rev 0804 • March 2016
Displacement limiter location
Pump rotation Displacement limiter mounted on
servo side
Displacement limitation at high
pressure side
Right [CW] 1 A
2 B
Left [CCW] 1 B
2 A
Displacement limiter
P108 705E
Side 1
Side 2
Frame size Lock nut wrench size and torque Adjusting screw
wrench size
internal hex
Approximate displacement change
per revolution of adjusting screw
042 13 mm 24 N•m [18 lbf•ft] 4 mm 3.5 cm³/(rev) [0.21 in³/rev]
055 13 mm 24 N•m [18 lbf•ft] 4 mm 4.2 cm³/rev [0.26 in³/rev]
075 13 mm 24 N•m [18 lbf•ft] 4 mm 5.1 cm³/rev [0.31 in³/rev]
100 13 mm 24 N•m [18 lbf•ft] 4 mm 6.2 cm³/rev [0.38 in³/rev]
130 17 mm 48 N•m [35 lbf•ft] 5 mm 8.8 cm³/rev [0.53 in³/rev]
180 19 mm 125 N•m [92 lbf•ft] 6 mm 12.5 cm³/rev [0.76 in³/rev]
250 19 mm 125 N•m [92 lbf•ft] 6 mm 17.3 cm³/rev [1.06 in³/rev]
The servo cylinders are equipped with gage port X11 and X12. These ports provide the possibility to
connect the servo system of the pump to the system loop. This feature connects the high pressure lines
with the servo system over check valves and provides a smooth concrete flow.
Shaft Torque
Shaft torque and spline lubrication
The rated torque is a measure of tooth wear and is the torque level at which a normal spline life of 2x109
shaft revolutions can be expected. The rated torque presumes a regularly maintained minimum level of
lubrication via a moly-disulfide grease in order to reduce the coefficient of friction and to restrict the
presence of oxygen at the spline interface. It is also assumed that the mating spline has a minimum
hardness of Rc 55 and full spline depth. The rated torque is proportional to the minimum active spline
length.
Maximum torque ratings are based on torsional fatigue strength considering 100.000 full load reversing
cycles. However, a spline running in oil-flooded environment provides superior oxygen restriction in
addition to contaminant flushing. The rated torque of a flooded spline can increase to that of the
Technical Information
Series 90 Axial Piston Pumps
Features and Options
520L0603 • Rev 0804 • March 2016 43
maximum published rating. A flooded spline would be indicative of a pump driven by a pump drive or
plugged into an auxiliary pad of a pump.
Maintaining a spline engagement at least equal to the Pitch Diameter will also maximize spline life. Spline
engagements of less than ¾ Pitch Diameter are subject to high contact stress and spline fretting.
Shaft torque for tapered shafts
The rated torque is based on the contact pressure between the shaft and hub surfaces with poor surface
contact areas. With an increased quality of the contact areas, the contact pressure between the shaft and
hub is increased and allows higher torque to be transmitted.
When a key is used for orientation of the hub on the shaft in conjunction with poor quality contact
surfaces, the transmitted torque will drop significantly. This is due to the key carrying the torque, which
limits the shaft torque carrying capability.
Maximum torque rating is based on an ideal contact area of 100 % and the retaining nut properly
torqued. This allows for the highest contact pressure between the shaft and the hub.
Shaft Availability and Torque Ratings
Alignment between the mating spline's pitch diameters is another critical feature in determining the
operating life of a splined drive connection. Plug-in, or rigid spline drive installations can impose severe
radial loads on the shafts. The radial load is a function of the transmitted torque and shaft eccentricity.
Increased spline clearance will not totally alleviate this condition; but, increased spline clearance will
prevent mechanical interference due to misalignment or radial eccentricity between the pitch diameters
of the mating splines. Spline life can be maximized if an intermediate coupling is introduced between the
bearing supported splined shafts.
For multiple pump installations, consider load of the entire pump stack. All torques are additive. Include
charge pumps loads when calculating torques.
Through torque diagram
First stageSecond stageThird
stage
for the first pumpM
e
1
second pump
for the M
e
2
next pumpfor the M
e
3
Input torqueM
e
P102 014E
Refer to the outline drawings for shaft dimensions.
Torque required by auxiliary pumps is additive. Ensure requirements don't exceed shaft torque ratings.
Shaft availability and maximum input torque - splined shafts
Option code Customer end Frame size/Maximum torque N•m [lbf•ft]
042 055 075 100 130 180 250
C3 15T 16/32 548 [404] n/a n/a n/a n/a n/a n/a
C6 21T 16/32 n/a 1287 [949] 1214 [895] 1214 [895] n/a n/a n/a
C7 23T 16/32 n/a n/a 1625 [1218] 1822 [1344] n/a n/a n/a
C8 27T 16/32 n/a n/a n/a n/a 2693 [1986] 3125 [2304] 3464 [2554]
Technical Information Series 90 Axial Piston Pumps
Features and Options
44 520L0603 • Rev 0804 • March 2016
Shaft availability and maximum input torque - splined shafts (continued)
Option code Customer end Frame size/Maximum torque N•m [lbf•ft]
042 055 075 100 130 180 250
G1 25T 20/40 n/a n/a 1379 [1017] 1390 [1025] n/a n/a n/a
F1 13T 8/16 n/a n/a n/a 2303 [1700] 2303 [1700] 2303 [1700] 2682 [1978]
S1 14T 12/24 n/a 832 [613] 853 [629] 974 [718] n/a n/a n/a
Shaft availability and maximum input torque - splined shafts
Option code Customer end Frame size/Maximum torque N•m [lbf•ft]
130 180
C8 27T 16/32 2693 [1986] 3125 [2304]
F1 13T 8/16 2303 [1700] 2303 [1700]
D5 W50x2x30x24x9g
-
3788 [2794]
Shaft availability and maximum input torque - tapered shafts
Option
code
Customer end Maximum nut torque Maximum Torque
transmitted through
joint
Frame size/Maximum shaft torque N•m [lbf•ft]
SD supplied
nut
1
customer
supplied nut
2
042 055 075 100 130 180 250
T8 Taper 1” - lock nut* 190 [140] 357 [263] Must be determined by
customer
626
[462]
n/a n/a n/a n/a n/a n/a
T1 Taper 1.375” - crowned nut** 210 [155] 704 [519] Must be determined by
customer
n/a 1209
[892]
1209
[892]
n/a n/a n/a n/a
T6 Taper 1.5” - lock nut* 525 [390] 882 [650] Must be determined by
customer
n/a n/a 1755
[1294]
1755
[1294]
n/a n/a n/a
T4 Taper 1.75” - crowned nut** 400 [295] 1391 [1026] Must be determined by
customer
n/a n/a n/a n/a 2488
[1835]
n/a n/a
* without key
** with woodruff key
W
Warning
1
Exceeding the maximum torque value for SD supplied nut may result in nut failure.
W
Warning
2
Customer may supply a stronger nut. Exceeding the maximum torque value for customer supplied nut
may result in shaft failure.
Tapered Shaft Customer Acknowledgement
W
Warning
The customer is responsible for proper analysis, design, and quality of the mating female coupling, key,
and applied torque on the nut. Torque must be transmitted by the taper fit between the shaft and
mating coupling, not the key. Failure to properly analyze the nut torque required to create a robust joint
could result in transmitting torque through the key which may lead to premature shaft failure.
Technical Information
Series 90 Axial Piston Pumps
Features and Options
520L0603 • Rev 0804 • March 2016 45
The specified torque rating of the tapered shaft is based on the cross-sectional diameter of the shaft
through the keyway and assumes proper clamp and fit between shaft and coupling. Danfoss guarantees
the design and manufactured quality of the tapered shaft.
Danfoss has made provisions for the key in accordance to the ISO specification with the understanding
that the key is solely to assist in the installation of the mating coupling.
Charge Pump
Charge flow is required on all Series 90 pumps applied in closed circuit installations. The charge pump
provides flow to make up internal leakage, maintain a positive pressure in the main circuit, provide flow
for cooling and filtration, replace any leakage losses from external valving or auxiliary systems, and to
provide flow and pressure for the control system.
Many factors influence the charge flow requirements. These factors include system pressure, pump
speed, pump swashplate angle, type of fluid, temperature, size of heat exchanger, length and size of
hydraulic lines, control response characteristics, auxiliary flow requirements, hydrostatic motor type, etc.
Unusual application conditions may require a more detailed review of charge pump sizing. Charge
pressure must be maintained at a specified level under all operating conditions to prevent damage to the
transmission. Danfoss recommends testing under actual operating conditions to verify this.
Charge pump sizing/selection
In most applications a general guideline is that the charge pump displacement should be at least 10% of
the total displacement of all components in the system. Unusual application conditions may require a
more detailed review of charge flow requirements. Refer to Selection of Drive line Components BLN-9885,
for a detailed procedure.
System features and conditions which may invalidate the 10% guideline include (but are not limited to):
•
Continuous operation at low input speeds (< 1500 min
-1
(rpm))
•
High shock loading
•
Excessively long system lines (> 3m [9.8 ft])
•
Auxiliary flow requirements
•
Use of low speed high torque motors
•
High flushing flow
Contact your Danfoss representative for application assistance if your application includes any of these
conditions.
Available charge pump sizes and speed limits
Code Charge pump size
cm³ [in³]
Rated speed
min-1 (rpm)
B 11 [0.69] 4200
C 14 [0.86] 4200
D 17 [1.03] 3900
E 20 [1.20] 3600
F 26 [1.60] (only for 130cc) 3300
H 34 [2.07] 3100
J 47 [2.82] (only for 180cc) 2600
K 65 [3.90] 2300
Charge pump flow and power curves
Charge pressure: 20 bar [350 psi]
Technical Information
Series 90 Axial Piston Pumps
Features and Options
46 520L0603 • Rev 0804 • March 2016
Case drain: 80 °C (8.2 cSt) 180 °F (53 SUS)
Reservoir temperature: 70 °C (11 cSt) 160 °F (63 SUS)
Charge pump output flow
80
70
60
50
40
30
20
10
3
6
9
12
15
21
18
500 1000 2000 3000 4000 4500
Speed min¯¹ (rpm)
US gal/min
l/min
17 cm • 1.03 in /Rev
14 cm • 0.86 in /Rev
34 cm • 2.07 in /Rev
3
3
26 cm • 1.60 in /Rev
3
3
3
20 cm • 1.2 in /Rev
3
3
3
3
3
0
0
47 cm • 2.9 in /Rev
3
3
90
24
65 cm • 3.9 in /Rev
3
3
P102 012E
Charge pump power requirements
3
2
1
6
500 1000 2000 3000
4000
4500
HP
kW
34 cm •
2.07 in /rev
26 cm
•
1.60 in /rev
20 cm
•
1.2 in /rev
17 cm
•
1.03 in /rev
14 cm
•
0.86 in /rev
11 cm
•
0.69 in /rev
5
4
3
2
1
4
0
0
3
3
3
3
3
3
Speed min (rpm)
-1
47 cm
•
2.9 in /rev
3
65 cm
•
3.9 in /rev
3
7
5
P102 013E
Speed Sensor
An optional speed sensor for direct measurement of speed is available.
A special magnetic ring is pressed onto the outside diameter of the cylinder block and a Hall effect sensor
is located in the 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.
Technical Information
Series 90 Axial Piston Pumps
Features and Options
520L0603 • Rev 0804 • March 2016 47
To use the speed sensor in a PLUS+1 Guide application, download HWD file 10106825 from
www.Danfoss.com/Plus1. To identify the sensors that are PLUS+1 compliant, please contact your Danfoss
representative.
Electrical data
Description Data
Supply voltage (two ranges) 4.5 to 8.5 Vdc Regulated 7 to 32 Vdc Battery
Maximum operating current 20 mA at 1 Hz and 5 Vdc supply
Required current 12 mA at 5 Vdc (no load)
Output voltage High state Supply voltage minus 0.5 Vdc
minimum (no load)
Low state 0.5 Vdc, maximum (no load)
Maximum frequency 15 kHz
Load Ground 15 kHz
Supply 15 kHz
Peak transient voltage 4.5 to 8.5 Vdc 80 Vdc for 2 milliseconds
7 to 32 Vdc 300 Vdc for 2 milliseconds
200 Vdc for 100 milliseconds
Peak reverse voltage 4.5 to 8.5 Vdc -15 Vdc continuous
7 to 32 Vdc -32 Vdc continuous
Environmental data
Description Data
Operating and storage temperature -40° to 110° C [-40° to 230° F]
For more information on the speed sensor, refer to KPP Pulse Pickup (PPU) Technical Information
11029257.
W
Warning
Do not energize the 4.5 to 8.5 Vdc sensor with 12 Vdc battery voltage. Use a regulated power supply. If
you need to energize the sensor with battery voltage, contact your Danfoss representative for a special
sensor.
Pulse frequency
042 055 075 100 130 180 250
Pulse per revolution 48 52 58 63 69 77 85
Technical Information Series 90 Axial Piston Pumps
Features and Options
48 520L0603 • Rev 0804 • March 2016
Connector Pin Assignments
C
Ground
3 pin Deutsch Plug DT Series connector
3523
A
Power +
B
Speed
3 or 4 pin Delphi Connector
Power +
Speed
Ground
Direction
A
B
C
D
3524A
4 pin Deutsch® Plug DT Series Connector
1
Power +
3
Ground
2
Speed
4
Direction
3525
3526
4 pin Turck Eurofast connector
Keyway ref
A
Power +
D
Ground
12.7 [0.50]
Flats
C
Speed
B
Direction
Packard Weather-Pack
4 pin
(Supplied Connector)
Mating Connector
No.: K03379
Turck Eurofast Connector
4 pin
(Supplied Connector)
Mating Connector
straight right angle
No.: K14956 No.: K14957
Technical Information Series 90 Axial Piston Pumps
Features and Options
520L0603 • Rev 0804 • March 2016 49
Frame Size 042
Manual displacement control (MDC), endcap twin ports, option 80
Port L1
Case drain
use highest
port as outlet
7/8-14UNF-2B
258
[10.16]
56.9
[2.24]
143.5
[5.65]
Gauge port M5
servo pressure
9/16-18UNF-2B
Gauge port M4
servo pressure
9/16-18UNF-2B
41.6
[1.64]
83
(3.27)
View "Y"
Gauge port M3
charge pressure
9/16-18UNF-2B
Multifunction
valve
Multifunction
valve
Charge pressure
relief valve
View "X"
Ø6,73
[Ø0.265]
R 25.4
[R 1.0]
R 50.8
[R 2.0]
2x
"B"
"A"
28
minimum
28
minimum
Neutral
position
Torque applied to control handle shaft
not to exceed 17 Nm [150 lb•in]
Maximum
displacement
Maximum
displacement
Manual displacement control handle
dimensions
B
A
12.2
[0.48]
114.5 [4.51]
Port L2
130
[5.12]
23.8
[0.94]
52
[2.047]
52
[2.047]
108 [4.25]
Port L1
129
[5.08]
50.8
[2.00]
Ports A and B
3/4 – 6000 psi
split flange boss
per SAE J518
(Code 62)
3/8-16UNC-2B
20 [0.787]
minimum full thread
Gauge port M1
system pressure A
9/16-18UNF-2B
207.8
[8.18]
Approximate
center of gravity
Port S: Charge
pump inlet
1-1/16-12UN-2B
Gauge port M2
system pressure B
9/16-18UNF-2B
9.4
[0.37]
"X"
"Y"
(2x)
33
[1.30]
73
[2.875]
146
[5.75]
80 [3.15]
Port L2
81.4
[3.20]
145
[5.71]
Approximate
center
of gravity
Port L2
case drain
7/8-14UNF-2B
Ø
14.3
[Ø
0.562]
View "Z"
86
[3.39]
111
[4.37]
"W"
Rotation
CCW
CW
Control MDC, option MA
P102 040
41.67
[1.64]
12.70
[0.50]
Ø 6.33
[Ø 0.249]
4.78
[0.188]
External charge plug
1 1/16-12 UNF
Ø101.6
Ø[4]
0
-0.05
[+0.000]
[-0.002]
7.9
[0.31]
9.7
[0.38]
R0.8 max.
[0.03]
0
-0.51
[+0.0
]
[-0.02]
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
50 520L0603 • Rev 0804 • March 2016
Auxiliary mounting pad – options AB, BC, BB
146
[5.75]
146
[5.75]
4 threads
1/2-13UNC-2B
22 [0.87] deep
View "X"
146
([5.75]
146
[5.75]
4 threads
1/2-13UNC-2B
22 [0.87] deep
View "X"
106.38
[4.188]
106.38
[4.188]
4 threads
3/8-16UNC-2B
17.8 [0.70] deep
View "X"
SAE B-B, option BB
300.37
[11.83]
282.92
[11.14]
For O-ring
Ø94.92 x 2.62
[Ø3.737 x 0.103]
"X"
Coupling spline data:
Pitch diameter = 23.8125 [0.9375]
Pressure Angle = 30°
Number of teeth = 15
Pitch = 16/32
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 15. 2 [0.598]
Ø101.65
[Ø4.002]
+ 0.05
- 0.00
[+0.002]
[- 0.000]
30.8
[1.21]
300.37
[11.83]
282.92
[11.14]
for O-ring
Ø94.92 x 2.62
[Ø3.737 x 0.103]
"X"
Coupling spline data:
Pitch diameter = 20.638 [0.8125]
Pressure Angle = 30°
Number of teeth = 13
Pitch = 16/32
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 25.5 [1.0]
SAE B, option BC
20.5
[0.81]
Ø101.64
[Ø4.002]
+ 0.05
0
[+0.002]
[- 0.000]
301.85
[11.88]
288
[11.34]
for O-ring
Ø82.22 x 2.62
[Ø3.237 x 0.103]
Coupling spline data:
Pitch diameter = 14.288 [0.5625]
Pressure angle = 30°
Number of teeth = 9
Pitch = 16/32
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 33.5 [1.32]
"X"
18
[0.71]
Ø82.6
[Ø3.252]
+ 0.13
0
[+0.005]
[- 0.000]
SAE A, option AB
2
2
2
M1
M2
M1
M2
M1
M2
M5
M5
M5
P102 041
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
520L0603 • Rev 0804 • March 2016 51
Shaft dimensions
P108 501E
71
[2.8]
8
[0.32]
28.1
[1.106]
Washer
DIN EN ISO 7089-300
Self-lock nut (DIN 985)
M18 x 1.5
[0.709]
25.4
[1.00]
Cone 1:8 per SAE J501
108.6
[4.28]
7.9
[0.311]
38
[1.515]
Coupling must not protude beyond this surface
108.6
[4.28]
Option C3 ISO 3019-1 Flange Outer
Diameter 25mm -4mm (SAE B-B, 15 tooth)
21.34
[0.84]
25.0
[0.98]
25.4
[1.00]
Cone flange must not
protrude beyond this point
*
* Minimum active spline length
for the specified torque ratings
Option T8
Refer to (torque - tapered shafts) table
page 42 for torque information
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
52 520L0603 • Rev 0804 • March 2016
Frame Size 055
Manual displacement control (MDC), endcap side ports, option 60
Ø 6.73±0.13
[Ø 0.265±0.005]
R 25.4±0.3
[R 1.0±0.01]
R 50.8±0.3
[R 2.0±0.01]
2x
B
A
28°
minimum
28°
minimum
Neutral
position
Torque applied to control handle shaft
not to exceed 17 N•m [150 lbf•in]
Maximum
displacement
Maximum
displacement
Manual Displacement Control Handle
Dimensions
Gauge port M3
charge pressure
9/16-18UNF-2B
Multifunction
valve
Charge pressure
relief valve
View "X"
Multifunction
valve
82.6
[3.25]
Port S: Charge pump inlet
1-5/16-12UN-2B
58.4
[2.30]
17.8
[0.70]
120.4 [4.74]
port L2
152.4
[6.00]
121.9 [4.80]
port B
133.9 [5.27]
Gauge port M1
system pressure A
9/16-18UNF-2B
Approximate
center of gravity
Gauge port M2
system pressure B
9/16-18UNF-2B
9.4
[0.37]
"X"
"Z"
"Y"
117.6 [4.63]
port L1
288.8
[11.37]
90.4 [3.56]
port A
243.7 [9.60]
Port S
14.2
[0.56]
View "Z"
CW
43.7
[1.72]
57.25
[2.254]
114.5
[4.50]
86.2 [3.39]
Port L2
88.9
[3.50]
149.9
[5.90]
Approximate
center of gravity
Port L2
case drain
1-1/16-12UN-2B
93.7
[3.69]
111.1
[4.37]
Ø14.27
[Ø 0.562]
"W"
Rotation
CCW
(4x)
(2x)
231.9
[9.13]
Port L1
case drain
use highest
port as outlet
1-1/16-12UN-2B
72.9
[2.87]
168.9
[6.65]
Gauge port M5
Servo pressure
7/16-20UNF-2B
27.76
[1.093]
57.15 [2.25]
Gauge port M4
servo pressure
7/16-20UNF-2B
View "Y"
Ports A and B
1.00 - 6000 psi
split flange boss
per SAE J518
(Code 62)
7/16-14UNC-2B
except 21 [0.83]
minimum full thread
Control MDC, option MA
2
P102 042
External charge plug
1 5/16-12 UNF
Ø127
Ø[5]
0
-0.05
[+0.000
[-0.002]
12.45
[0.49]
±0.25
±[0.01]
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
520L0603 • Rev 0804 • March 2016 53
Manual displacement control (MDC) endcap twin ports, option 80
View "Y"
85.1 [3.35]
port S
88.9
[3.54]
232.2
[9.14]
Gauge port M1: system pressure A
9/16-18UNF-2B
Gauge port M2
system pressure B
9/16-18UNF-2B
"Y"
57.9
[2.28]
57.9
[2.28]
247.1
[9.73]
57.15
[2.25]
Port S: charge
pump inlet
1-5/16-12UN-2B
27.76
[1.093]
A
B
Ports A and B
1 – 6000 psi
split flange boss
per SAE J518
(Code 62)
7/16-14UNC-2B
21 [0.83]
minimum full thread
Control MDC, option MA
2
P102 043
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
54 520L0603 • Rev 0804 • March 2016
Auxiliary mounting pad – options AB, BC, CD, BB
SAE B, option BC
4 threads
1/2-13UNC-2B
22.0[0.87] deep
View "X"
146
[5.75]
146
[5.75]
329
[12.95]
311.5
[12.26]
"X"
Coupling spline data:
Pitch diameter = 20.6375 [0.8125]
Pressure angle = 30°
Number of teeth = 13
Pitch = 16/32
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 29.51 [1.16]
For O-ring
Ø 94.92 x 2.62
[Ø 3.737 x 0.103]
17.66
[0.70]
Ø 101.65
[Ø 4.002]
+ 0.13
0
[+0.005]
[- 0.000]
331
[13.03]
314
[12.36]
"X"
Coupling spline data:
Pitch diameter = 29.6333 [1.167]
Pressure angle = 30°
Number of teeth = 14
Pitch = 12/24
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 18.97 [0.747]
[+0.005]
[- 0.000]
For O-ring
Ø 120.32 x 2.62
[Ø 4.737 x 0.103]
Ø 127.03
[Ø 5.00]
+ 0.13
0
30.73
[1.21]
SAE C, option CD
View "X"
6 threads
1/2-13UNC-2B
22 (0.87) deep
114.5
[4.51]
114.5
[4.51]
181
[7.13]
SAE A, option AB
330.4
[13.01]
316.6
[12.46]
For O-ring
Ø 82.22 x 2.62
[Ø 3.237 x 0.103]
Coupling spline data:
Pitch diameter = 14.288 [0.5625]
Pressure angle = 30°
Number of teeth = 9
Pitch = 16/32
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 37.13 [1.46]
"X"
Ø 82.6
[Ø 3.252]
+ 0.13
0
[+0.005]
[- 0.000]
15.13
[0.59]
106.375
[4.188]
106.375
[4.188]
View "X"
4 threads
3/8-16UNC-2B
22.8 [0.90] deep
2
2
2
P102 044
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
520L0603 • Rev 0804 • March 2016 55
Auxiliary mounting pad – options AB, BC, CD, BB
SAE B-B, option BB
4 threads
1/2-13UNC-2B
22 [0.87] deep
View "X"
146
[5.75]
146
[5.75]
329
[12.95]
311.5
[12.26]
"X"
Coupling spline data:
Pitch diameter = 23.8125 [0.9375]
Pressure angle = 30°
Number of teeth = 15
Pitch = 16/32
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 24.43 [0.96]
For O-ring
Ø 94.92 x 2.62
[Ø 3.737 x 0.103]
Ø 101.65
[Ø 4.002]
+ 0.13
0
[+0.005]
[- 0.000]
20.75
[0.82]
2
P102 045
Shaft dimensions
7.9
[0.311]
47.6
[1.875]
Coupling must not protude beyond this surface
Option S1 ISO 3019-1
Flange Outer Diameter 32mm -4mm (SAE C, 14 tooth)
24.9
[0.98]
27.9
[1.10]
31.14
[1.23]
29.633
[1.1667]
7.9
[0.311]
47.6
[1.875]
Coupling must not protude beyond this surface
Option C6 ISO 3019-1
Flange Outer Diameter 32mm -4mm (SAE C, 21 tooth)
28.7
[1.13]
31.2
[1.23]
34.42
[1.36]
33.338
[1.3125]
P108 502E
*
* Minimum active spline length
for the specified torque ratings
*
Shaft spline data:
Pitch diameter = 29.6333 [1.167]
Pressure angle = 30°
Number of teeth = 14
Pitch = 12/24
ANSI B92.1
Fillet root side fit
Shaft spline data:
Pitch diameter = 33.338 [1.3125]
Pressure angle = 30°
Number of teeth = 21
Pitch = 16/32
ANSI B92.1
Fillet root side fit
6.6
[0.26]
66.9
[2.63]
Cone flange must not protude beyond this point
Option T1 ISO 38.3
Diameter 34.9 mm Taper 1:8
47.8
[1.88]
62.02
[2.44]
Woodruff key [0.375 x 1.5]
Wrench size 38 mm
Shaft/cone 1:8 SAE standard J501
P108 503E
Refer to (torque - tapered shafts) table
page 42 for torque information
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
56 520L0603 • Rev 0804 • March 2016
Frame Size 075
Manual Displacement Control (MDC) Endcap Side Ports, Option 60
248.2
[9.77]
Port L1
Case drain
use highest
port as outlet
1-1/16-12UN-2B
81.3
[3.20]
172.2
[6.78]
Gauge port M5
servo pressure
9/16-18UNF-2B
Gauge port M4
servo pressure
9/16-18UNF-2B
7.9 [0.31]
41.6
[1.64]
27.76
[1.093]
View "Y"
57.15 [2.25]
Ports A and B
1 – 6000 psi
split flange boss
per SAE J518
(Code 62)
7/16-14UNC-2B
20 [0.79]
minimum full thread
3.8
[0.15]
14.2
[0.56]
141.7 [5.58]
Port L2
155.7
[6.13]
124.2 [4.89]
port L1
139.7
[5.50]
Approximate
center of gravity
Gauge port M2
System pressure B
9/16-18UNF-2B
9.4
[0.37]
"X"
"Z"
"Y"
12.45
[0.49]
7.9
[0.31]
±0.25
[±0.01]
129 [5.08]
port B
306,1
(12.05)
Gauge port M1
system pressure A
9/16-18UNF-2B
94.5 [3.72]
port A
262.6 [10.34]
Port S
Ø 126.7
[Ø 5]
0
-0.05
[+0.000]
[-0.002]
93.7
[3.69]
155.7
[6.13]
40.6
[1.60]
57.25
[2.254]
114.5
[4.50]
91.7 [3.61]
port L2
Approximate
center of gravity
Port L2
case drain
1-1/16-12UN-2B
View "Z"
99.3
[3.91]
110.7
[4.36]
"W"
Ø 14.27
[Ø 0.562]
Rotation
CCW
CW
(4x)
(2x)
Gauge port M3
charge pressure
9/16-18UNF-2B
Multifunction
valve
Charge pressure
relief valve
View "X"
Multifunction
valve
Port S: charge pump inlet
1-5/16-12UN-2B
84.0
[3.31]
65
[2.56]
Ø 6.73±0.13
[Ø 0.265±0.005]
R 25.4±0.3
[R 1.0±0.01]
R 50.8±0.3
[R 2.0±0.01]
3x
B
A
28°
minimum
28°
minimum
Neutral
position
Torque applied to control handle shaft
not to exceed 17 N•m [150 lbf•in]
Maximum
displacement
Maximum
displacement
Manual displacement control handle
dimensions
Control MDC, option MA
2
M3
M2M10M1
A
B
M4M5
P102 046
+0.25
-0.18
[+0.010]
[-0.007]
41.67
[1.64]
12.70
[0.50]
Ø 6.33
[Ø 0.249]
4.78
[0.188]
External charge plug
1 5/16-12 UNF
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
520L0603 • Rev 0804 • March 2016 57
Manual Displacement Control (MDC), endcap twin ports, option 80
242.3
[9.54]
Gauge port M1: system pressure A
9/16-18UNF-2B
"Y"
61
[2.402]
61
[2.402]
248
[9.76]
57.15
[2.25]
27.76
[1.093]
Port S: charge
pump inlet
1-5/16-12UN-2B
B
A
Gauge port M2
system pressure B
9/16-18UNF-2B
Ports A and B
1 - 6000 psi
split flange boss
per SAE J518
(Code 62)
7/16-14UNC-2B
except 20.8 [0.82]
minimum full thread
99
[3.90]
Control MDC, option MA
2
92
[3.62]
View "Y"
P102 047
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
58 520L0603 • Rev 0804 • March 2016
Auxiliary mounting pad – Options AB, BC, CD, BB
M3
M2M10M1
A
B
M4M5
M3
M2M10M1
A
B
M4M5
M3
M2M10M1
A
B
M4M5
SAE B, option BC
View "X"
146
[5.75]
4 threads
1/2-13UNC-2B
22 [0.87] deep
146
[5.75]
346.5
[13.64]
328.9
[12.95]
"X"
Coupling spline data:
Pitch diameter = 20.6375 [0.8125]
Pressure angle = 30°
Number of teeth = 13
Pitch = 16/32
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 29.51 [1.16]
For O-ring
Ø 94.92 x 2.62
[Ø 3.737 x 0.103]
17.66
[0.70]
Ø 101.65
[Ø 4.002]
+ 0.13
0
[+0.005]
[- 0.000]
348.4
[13.72]
331.4
[13.05]
For O-ring
Ø 120.32 x 2.62
[Ø 4.737 x 0.103]
"X"
Coupling spline data:
Pitch diameter = 29.6333 [1.167]
Pressure angle = 30°
Number of teeth = 14
Pitch = 12/24
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 18.97 [0.747]
Ø 127.03
[Ø 5.001]
+ 0.13
0
[+0.005]
[- 0.000]
30.73
[1.21]
SAE C, option CD
View "X"
6 threads
1/2-13UNC-2B
22 [0.87] deep
114.5
[4.51]
114.5
[4.51]
181
[7.13]
2
2
SAE A, option AB
View "X"
4 threads
3/8-16UNC-2B
22.8 [0.90] deep
106.375
[4.188]
106.375
[4.188]
347.8
[13.69]
333.93
[13.14]
For O-ring
Ø 82.22 x 2.62
[Ø 3.237 x 0.103]
Coupling spline data:
Pitch diameter = 14.288 [0.5625]
Pressure angle = 30°
Number of teeth = 9
Pitch = 16/32
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 37.13 [1.46]
"X"
Ø 82.6
[Ø 3.252]
+ 0.13
0
[+0.005]
[- 0.000]
15.13
[0.59]
2
P102 048
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
520L0603 • Rev 0804 • March 2016 59
Auxiliary mounting pad – options AB, BC, CD, BB
A
M10
M3
M2M1
SAE B-B, option BB
View "X"
146
[5.75]
4 threads
1/2-13UNC-2B
22 [0.87] deep
146
[5.75]
346.5
[13.64]
328.9
[12.95]
For O-ring
Ø 94.92 x 2.62
[Ø 3.737 x 0.103]
"X"
Coupling spline data:
Pitch diameter = 23.8125 [0.9375]
Pressure angle = 30°
Number of teeth = 15
Pitch = 16/32
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 24.43 [0.96]
Ø 101. 65
[Ø 4.002]
+ 0.13
0
[+0.005]
[- 0.000]
22.75
[0.896]
2
B
M4M5
P102 049
Frame Size 075 NFPE Options FK, FL, FM, FN
Integrated NFPE control, endcap side ports
54
[2.118]
306
[12.043]
14
[0.56]
4
[0.157]
124.2
[4.89]
94.5
[3.722]
156
[6.142]
Connector
AMP Junior Typ A
Case drain L1
1-1/16-12UN-2B
System pressure B
Gage port M2
9/16-18UNF-2B
System pressure A
Gage port M1
9/16-18UNF-2B
Approx center
of gravity
Charge pump inlet M10
9/16-18UNF-2B
"E"
"B"
"A"
"C"
Ø14.3
[0.565]
57.25
[2.254]
95
[3.755]
65
[2.543]
91.7
[3.611]
+0.25
-0.13
[+0.10]
[-0.005]
57.25
[2.254]
Case drain L2
1-1/16-12UN-2B
"D"
View "B"
P104 324E
to case drain L1
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
60 520L0603 • Rev 0804 • March 2016
248
[9.772]
57.15
[2.250]
27.76
[1.093]
172
[6.780]
221 max.
[8.701]
Gage port M5
Servo pressure
9/16-18UNF-2B
Split flange boss (2x)
DN 25 TypII 40MPa series
per ISO 6162
Thread: 0.4375-14UNC-2B
[7/16-14UNC-2B]
0.83 min.
full thread depth
Gage port M4
Servo pressure
9/16-18UNF-2B
Connector
Deutsch: DTM 06-3 S
View "C"
110.8
[4.362]
84
[3.31]
Multifunction valve
Multifunction valve
Charge pressure
relief valve
Charge pump inlet S
1-5/16-12UN-2B
View "A"
P104325E
Integrated NFPE control, endcap side ports (continued)
253
[9.962]
141
[5.557]
View "D"
Charge pressure
Gage port M3
9/16-18UNF-2B
Optional: Part for speed pick up
9/16-18UNF-2B
P104 326E
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
520L0603 • Rev 0804 • March 2016 61
262.4
[10.332]
141.7
[5.581]
65
[2.558]
39.4
[1.551]
View "E"
P104 327E
Integrated NFPE control, endcap twin ports
"B"
"A"
4
[0.157]
124.2
[4.89]
99.0
[3.90]
61
[2.402]
27.76
[1.093]
61
[2.402]
54
[2.118]
306
[12.043]
Connector
AMP Junior Typ A
Case drain L1
1-1/16-12UN-2B
14
[0.56]
7.95
[0.313]
R0.8 max.
[0.03]
12.45±0.25
[0.490±0.010]
System pressure B
Gage port M2
9/16-18UNF-2B
156
[6.142]
57.15
[2.25]
242
[9.54]
248
[9.75]
Charge pump inlet
1-5/16-12UN-2B
Approx center
of gravity
"E"
"C"
System pressure A
Gage port M1
9/16-18UNF-2B
Split flange boss (2x)
DN 25 TypII 40MPa series
per ISO 6162
Thread: 0.4375-14UNC-2B
[7/16-14UNC-2B]
0.83 min.
full thread depth
P104 328E
Technical Information
Series 90 Axial Piston Pumps
Installation Drawings
62 520L0603 • Rev 0804 • March 2016
172
[6.780]
221 max.
[8.701]
Gage port M5
Servo pressure
9/16-18UNF-2B
Gage port M4
Servo pressure
9/16-18UNF-2B
Connector
Deutsch: DTM 06-3 S
View "C"
P104 329E
Shaft dimensions
7.9
[0.311]
Coupling must not protude beyond this surface
P108 504E
X
U
W
V
Technical Information
Series 90 Axial Piston Pumps
Installation Drawings
520L0603 • Rev 0804 • March 2016 63
P108 579E
9.1
[0.358]
89
[3.504]
Cone flange must not protude beyond this point
Option T6
32.1
[1.264]
M24 x 1.5
Shaft/cone 1:8 SAE standard J501
38.1
[1.5]
Self lock nut DIN 985
Washer DIN EN ISO 7089-300
Wrench size 36 mm
Refer to (torque - tapered shafts) table
page 42 for torque information
Shaft dimensions
Undercu
t
Diamete
r
Full
Spline
Major
Diamet
er
Pitch
Diamet
er
Lengt
h
Number
of
Teeth
Pitch Pressur
e
Angle
Spline
Shaft
Option
T U* V W X
C7 31.8
[1.25]
34.8
[1.37]
37.59
[1.48]
36.513
[1.4375]
47.6
[1.875
]
23 16/3
2
30
Degrees
ANSI
B92.1
Side fit, Fillet
Root
S1 24.9
[0.98]
27.9
[1.10]
31.14
[1.23]
29.633
[1.1667]
47.6
[1.875
]
14 112/
24
30
Degrees
ANSI
B92.1
Side fit, Fillet
Root
C6 28.7
[1.13]
31.2
[1.23]
34.42
[1.36]
33.3375
1.3125
47.6
[1.875
]
21 16/3
2
30
Degrees
ANSI
B92.1
Side fit, Fillet
Root
G1 28.5
[1.12]
34.6
[1.36]
32.93
[1.3]
31.75
[1.25]
47.6
[1.875
]
25 20/4
0
30
Degrees
ANSI
B92.1
Side fit, Fillet
Root
* Minimum active spline length for the specified torque ratings
Technical Information
Series 90 Axial Piston Pumps
Installation Drawings
64 520L0603 • Rev 0804 • March 2016
Frame Size 100
Manual Displacement Control (MDC), endcap side ports, option 60
Ø 6.73±0.13
[Ø 0.265±0.005]
R 25.4±0.3
[R 1.0±0.01]
R 50.8±0.3
[R 2.0±0.01]
3x
"B"
"A"
30°
minimum
30°
minimum
Neutral
position
Torque applied to control handle shaft
not to exceed 17 Nm [150 lbf•in]
Maximum
displacement
Maximum
displacement
Manual displacement control handle
dimensions
Gauge port M3
charge pressure
9/16-18UNF-2B
Multifunction
valve
Charge pressure
relief valve
View "X"
Multifunction
valve
89.7
[3.53]
Port S: charge pump inlet
1-5/8-12UN-2B
66
[2.60]
Coupling may not
protrude beyond
this surface
20.3
[0.80]
14.2
[0.56]
161 [6.34]
Port L2
180.3
[7.10]
143.3 [5.64]
port B
148.7 [5.85]
Gauge port M1
system pressure A
9/16-18UNF-2B
Approximate
center of gravity
Gauge port M2
system pressure B
9/16-18UNF-2B
9.4
[0.37]
"X"
"Z"
"Y"
7.9
[0.31]
139.1 [5.48]
port L1
339.0
[13.35]
99.1 [3.90]
port A
288 [11.34]
port S
277.7
[10.93]
Port L1
case drain
use highest
port as outlet
1-1/16-12UN-2B
87.3
[3.44]
204.6
[8.06]
Gauge port M5
servo pressure
9/16-18UNF-2B
Gauge port M4
Servo pressure
9/16-18UNF-2B
Coupling may not
protrude beyond
this surface
7.9 [0.31]
27.76
[1.093]
View "Y"
57.15 [2.25]
Ports A and B
1.00 - 6000 psi
split flange boss
per SAE J518
(Code 62)
7/16-14UNC-2B
except 21 [0.83]
minimum full thread
42
[1.65]
57.25
[2.254]
114.5
[4.508]
100.37 [3.95]
port L2
102
[4.02]
164.2
[6.46]
Approximate
center of gravity
Port L2
case drain
1-1/16-12UN-2B
View "Z"
108.5
[4.27]
119.6
[4.71]
"W"
Ø 14.27
[Ø 0.562]
(2x)
(2x)
Rotation
CCW
CW
Control MDC, option MA
2
M3
M2
M10
M1
B
M4
M5
A
P102 050
41.67
[1.64]
12.70
[0.50]
Ø 6.33
[Ø 0.249]
4.78
[0.188]
External charge plug
1 5/16-12 UNF
±0.25
[±0.01]
Ø 127
[Ø 5.000]
0
-0.05
[+0.000]
[-0.002]
12.45
[0.49]
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
520L0603 • Rev 0804 • March 2016 65
Manual Displacement Control (MDC), endcap twin ports, option 80
277.9
[10.94]
Gauge port M1: system pressure A
9/16-18UNF-2B
Gauge port M2
system pressure B
9/16-18UNF-2B
"Y"
B
A
66.8
[2.63]
66.8
[2.63]
280.5
[11.04]
57.15
[2.25]
27.76
[1.093]
Port S: charge
pump inlet
1-5/8-12UN-2B
View "Y"
99.8 [3.93]
port S
108
[4.25]
Ports A and B
1 - 6000 psi
split flange boss
per SAE J518
(Code 62)
7/16-14UNC-2B
21 [0.83]
minimum full thread
2
P102 051
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
66 520L0603 • Rev 0804 • March 2016
Auxiliary mounting pads, SAE AB, SAE BC, SAE CD
M3
M2
M10
M1
B
M4
M5
M3
M2
M10
M1
B
A
M3
M2
M10
M1
B
A
SAE B, Option BC
378,3
(14.89)
360,9
(14.21)
for O-Ring
ø94.92 x 2.62
(3.737 Dia x 0.103)
"X"
ø101,65
(4.002 Dia)
COUPLING SPLINE DATA:
Pitch Dia = 20,6375 (.8125)
Pressure Angle = 30
Number of teeth = 13
Pitch = 16/32
ANSI B92.1-1970, Class 6,
Fillet Root Side Fit
Length of spline = 29,51 (1.16)
+ 0,13
0
(+.005)
(- .000)
17,66
(.70)
View "X"
4 Threads
1/2-13UNC-2B
22 (.87) deep
146
(5.75)
146
(5.75)
SAE C, Option CD
View "X"
6 Threads
1/2-13UNC-2B
22 (.87) deep
114,5
(4.51)
114,5
(4.51)
181
(7.13)
380,27
(14.97)
363,47
(14.31)
for O-Ring
ø120.32 x 2.62
(4.737 Dia x 0.103)
"X"
ø127,03
(5.001 Dia)
COUPLING SPLINE DATA:
Pitch Dia = 29,6333 (1.167)
Pressure Angle = 30
Number of teeth = 14
Pitch = 12/24
ANSI B92.1-1970, Class 6,
Fillet Root Side Fit
Length of spline = 18,97 (.747)
+ 0,13
0
(+.005)
(- .000)
30,73
(1.21)
2
2
SAE A, Option AB
379,69
(14.95)
366,02
(14.41)
for O-Ring
ø82.22 x 2.62
(3.237 Dia x 0.103)
COUPLING SPLINE DATA:
Pitch Dia = 14,288 (.5625)
Pressure Angle = 30
Number of teeth = 9
Pitch = 16/32
ANSI B92.1-1970, Class 6,
Fillet Root Side Fit
Length of spline = 37,13 (1.46)
"X"
ø82,6
(3.252 Dia)
+ 0,13
0
(+.005)
(- .000)
15,13
(.60)
View "X"
4 Threads
3/8-16UNC-2B
17 (.67) deep
106,375
(4.188)
106,375
(4.188)
2
A
M4
M5
M4
M5
P106 645E
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
520L0603 • Rev 0804 • March 2016 67
Auxiliary mounting pad, SAE BB
M3
M2
M10
M1
B
A
378,3
(14.89)
360,9
(14.21)
for O-Ring
ø94.92 x 2.62
(3.737 Dia x 0.103)
"X"
ø101,65
(4.002 Dia)
COUPLING SPLINE DATA:
Pitch Dia = 23,8125 (.9375)
Pressure Angle = 30
Number of teeth = 15
Pitch = 16/32
ANSI B92.1-1970, Class 6,
Fillet Root Side Fit
Length of spline = 24,43 (.96)
+ 0,13
0
(+.005)
(- .000)
22,75
(.896)
SAE B-B, Option BB
View "X"
4 Threads
1/2-13UNC-2B
22 (.87) deep
146
(5.75)
146
(5.75)
2
M4
M5
P106 646E
Shaft dimensions
7.9
[0.311]
Coupling must not protude beyond this surface
P108 505E
X
U
W
V
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
68 520L0603 • Rev 0804 • March 2016
P108 509E
9.54
[0.376]
89
[3.504]
Cone flange must not protude beyond this point
Option T6
47.8
[1.882]
M24 x 1.5
Shaft/cone 1:8 SAE standard J501
38.1
[1.5]
Self lock nut DIN 985
Wrench size 36 mm
Refer to (torque - tapered shafts) table
page 42 for torque information
Shaft dimensions
Undercu
t
Diamete
r
Full
Spline
Major
Diamet
er
Pitch
Diamet
er
Lengt
h
Number
of
Teeth
Pitch Pressur
e
Angle
Spline
Shaft
Option
T U* V W X
C7 32.3
[1.27]
38.9
[1.53]
37.59
[1.48]
36.513
[1.4375]
47.6
[1.875
]
23 16/3
2
30
Degrees
ANSI
B92.1
Side fit, Fillet
Root
F1 34.5
[1.36]
49.5
[1.95]
43.94
[1.73]
41.275
[1.825]
66.7
[2.625
]
13 8/16 30
Degrees
ANSI
B92.1
Side fit, Fillet
Root
S1 24.9
[0.98]
30.5
[1.20]
31.14
[1.2258]
29.634
[1.1667]
47.6
[1.875
]
14 12/2
4
30
Degrees
ANSI
B92.1
Side fit, Fillet
Root
C6 30
Degrees
ANSI
B92.1
Side fit, Fillet
Root
* Minimum active spline length for the specified torque ratings
Technical Information
Series 90 Axial Piston Pumps
Installation Drawings
520L0603 • Rev 0804 • March 2016 69
Frame Size 130
Manual Displacement Control (MDC), end cap twin ports, option 80
B
Ø 6.73
[Ø 0.265]
R 25.4
[R 1.00]
R 50.8
[R 2.00]
2x
"B"
"A"
30°
minimum
30°
minimum
Neutral
position
Torque applied to control handle shaft
not to exceed 17 N•m [150 lbf•in]
Maximum
displacement
Maximum
displacement
Manual displacement control handle
dimensions
Gauge port M3
charge pressure
9/16-18UNF-2B
Multifunction
valve
Charge pressure
relief valve
View "X"
Multifunction
valve
Gauge port M4
servo pressure
9/16-18UNF-2B
7.9 [0.31]
111
[4.37]
View "Y"
Port L1
case drain
use highest
port as outlet
1-5/16-12UN-2B
370
[14.58]
101.5
[4.00]
209.3
[8.24]
Gauge port M5
servo pressure
9/16-18UNF-2B
48.8
[1.92]
80.8
[3.181]
161.6
[6.36]
100 [3.94]
port L2
111.6
[4.39]
184.5
[7.26]
Approximate
center of gravity
Port L2
case drain
1-5/16-12UN-2B
View "Z"
110.5
[4.35]
"W"
Ø 20.6
[Ø 0.81]
Rotation
CCW
CW
(2x)
(2x)
16
[0.63]
166 [6.54]
port L2
185
[7.28]
31.75
[1.25]
77
[3.03]
77
[3.03]
147.1 [5.79]
port L1
168.5
[6.63]
66.68
[2.63]
Gauge port M1
System pressure A
9/16-18UNF-2B
300
[11.81]
Approximate
center of gravity
Port S: charge
pump inlet
1-5/8-12UN-2B
Gauge port M2
System pressure B
9/16-18UNF-2B
9.4
[0.37]
"X"
"Z"
"Y"
B
A
290
[11.42]
Ports A and B
1- 1/4 - 6000 psi
split flange boss
per SAE J518
(Code 62)
1/2-13UNC-2B
23 [0.906]
minimum full thread
2
M2
M5
M4
M1
A
P102 052
External charge plug
1 5/16-12 UNF
48
[1.9]
Ø152.4
Ø[6]
0
-0.0
[+0.000
[-0.002]
15
[0.591]
R0.8 max.
[0.03]
[0.49]
±[0.01]
12.45
±0.25
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
70 520L0603 • Rev 0804 • March 2016
Auxiliary mounting pad - options AB, BC, CD, DE, BB
B
A
B
A
A
B
M2
M5
M4
SAE B, option BC
425.65
[16.76]
408
[16.06]
18.2
[0.72]
For O-ring
Ø 94.92 x 2.62
[Ø 3.737 x 0.103]
"X"
Ø 101.65
[Ø 4.002]
Coupling spline data:
Pitch diameter = 20.6375 [0.8125]
Pressure angle = 30°
Number of teeth = 13
Pitch = 16/32
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 28.77 [1.1])
+ 0.13
- 0.00
[+0.005]
[- 0.000]
4 threads
1/2-13UNC-2B
22 [0.87] deep
View "X"
146
[5.75]
146
[5.75]
SAE A, option AB
414.56
[16.32]
400.89
[15.78]
For O-ring
Ø 82.22 x 2.62
[3.237 diameter x 0.103]
Coupling spline data:
Pitch diameter = 14.288 [0.5625]
Pressure angle = 30°
Number of teeth = 9
Pitch = 16/32
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 22.4 [0.88]
"X"
Ø 82.6
[Ø 3.252]
15.6
[0.61]
+ 0.13
0
[+0.005]
[- 0.000]
View "X"
4 threads
3/8-16UNC-2B
17.8 [0.70] deep
106.375
[4.188]
106.375
[4.188]
View "X"
114.5
[4.51]
114.5
[4.51]
6 threads
1/2-13UNC-2B
22 [0.87] deep
181
[7.13]
SAE C, option CD
427.75
[16.84]
411.05
[16.18]
For O-ring
Ø120.32 x 2.62
[Ø 4.737 x 0.103]
"X"
Ø 127.03
[Ø 5.001]
+ 0.13
0
[+0.005]
[-0.000]
31.4
[1.24]
Coupling spline data:
Pitch diameter = 29.6333 [1.167]
Pressure Angle = 30°
Number of teeth = 14
Pitch = 12/24
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 29.97 [1.18]
2
2
2
M2
M5
M4
M1
M2
M5
M4
M1
M1
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
520L0603 • Rev 0804 • March 2016 71
Auxiliary mounting pad - options AB, BC, CD, DE, BB
B
A
B
M2
M1
A
4 threads
1/2-13UNC-2B
22 [0.87] deep
View "X"
146
[5.75]
146
[5.75]
SAE B-B, option BB
425.65
[16.76]
408
[16.06]
23.3
[0.92]
For O-ring
Ø 94.92 x 2.62
[Ø 3.737 x 0.103]
"X"
Ø 101.65
[Ø 4.002]
Coupling spline data:
Pitch diameter = 23.8125 [0.9375]
Pressure angle = 30°
Number of teeth = 15
Pitch = 16/32
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 24.59 [0.96]
+ 0.13
- 0.00
[+0.005]
[- 0.000]
SAE D, option DE
View "X"
4 threads
3/4-10UNC-2B
41 [1.6] deep
161.6
[6.36]
161.6
[6.36]
439.22
[17.29]
415.62
[16.36]
For O-ring
Ø 153 x 3.0
[Ø 6.02 x 0.118]
"X"
Ø 152.45
[Ø 6.002]
+ 0.13
- 0.00
[+0.005]
[- 0.000]
50.84
[2.00]
Coupling spline data:
Pitch diameter = 41.275 [1.625]
Pressure angle = 30°
Number of teeth = 13
Pitch = 8/16
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline =
25.22 [0.993]
2
2
M5
M4
M2
M5
M4
M1
P102 054
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
72 520L0603 • Rev 0804 • March 2016
Shaft dimensions
7.9
[0.311]
66.7
[2.625]
Coupling must not protude beyond this surface
Option C8 ISO 3019-1
(27 tooth)
37.0
[1.46]
43.89
[1.73]
43.89
[1.73]
42.865
[1.6875]
7.9
[0.311]
66.7
[2.625]
Coupling must not protude beyond this surface
Option F1 ISO 3019-1
(13 tooth)
28.7
[1.13]
31.2
[1.23]
41.275
[1.625]
P108 506E
*
* Minimum active spline length
for the specified torque ratings
*
Shaft spline data:
Pitch diameter = 42.862 [1.687]
Pressure angle = 30°
Number of teeth = 27
Pitch = 16/32
ANSI B92.1
Fillet root side fit
Shaft spline data:
Pitch diameter = 41.275 [1.625]
Pressure angle = 30°
Number of teeth = 13
Pitch = 8/16
ANSI B92.1
Fillet root side fit
43.89
[1.73]
11.05
[0.44]
75.95
[2.99]
Cone flange must not protude beyond this surface
Wrench size 46 mm
P108 510E
22.1
[0.87]
28.45
[1.12]
15.88
[0.63]
Option T4
44.45
[1.75]
41.275
[1.625]
Gauge
Diameter
11.06 x 63.5
[0.4355 x 2.75]
Woodruff key
Refer to (torque - tapered shafts) table
page 42 for torque information
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
520L0603 • Rev 0804 • March 2016 73
Frame Size 180
Manual Displacement Control (MDC), end cap twin ports, option 80
ccw cw
Ø 6.73
[Ø 0.265]
R 25.4
[R 1.0]
R 50.8
[R 2.0]
2x
"B"
"A"
30
minimum
30
minimum
Null
position
Torque applied to control handle shaft
not to exceed 17 Nm [150 lbf•in]
Maximum
displacement
Maximum
displacement
Manual displacement control handle
dimensions
Port N (optional), speed
pick-up 9/16-18UNF-2B
View "W"
211.28
[8.32]
20
[0.79]
186 [7.32]
port L2
200
[7.87]
31.75
[1.25]
93
[3.66]
93
[3.66]
181 [7.13]
port L1
204
[8.03]
66.68
[2.63]
Gauge port M1
system pressure A
9/16-18UNF-2B
326
[12.83]
Approximate
center of gravity
Gauge port M2
System pressure B
9/16-18UNF-2B
"X"
"Z"
"Y"
321
[12.64]
Ports A and B
1- 1/4 -6000 psi
split flange boss
per SAE J518
(Code 62)
1/2-13UNC-2B
23 [0.906]
minimum full thread
Port S: charge
pump inlet
1-5/8-12UN-2B
9.4
[0.37]
Port L1
case drain
use highest
port as outlet
1-5/8-12UN-2B
398
[15.67]
108
[4.25]
228
[8.97]
Gauge port M5
servo pressure
9/16-18UNF-2B
Gauge port M4
servo pressure
9/16-18UNF-2B
7.9 [0.31]
138
[5.43]
View "Y"
View "Z"
56
[2.20]
112.25
[4.42]
224.5
[8.84]
142 [5.59]
port L2
143
[5.63]
201.5
[7.93]
Approximate
center of gravity
Port L2
case drain
1-5/8-12UN-2B
156.42
[6.16]
"W"
Ø 20.6
[Ø 0.81]
112.25
[4.42]
(2x)
(2x)
View "X"
Gauge port M3
charge pressure
9/16-18UNF-2B
Multifunction
valve
Multifunction
valve
P102 057
CPRV
External charge plug
1 5/8-12 UNF
48
[1.9]
Ø165.1
Ø[6.5]
0
-0.05
[+0.000
[-0.002]
12
[0.472]
R 0.8 max.
[0.03]
[0.62 ±0.011]
15.65 ±0.25
20
[0.79]
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
74 520L0603 • Rev 0804 • March 2016
Auxiliary mounting pad - options AB, BC, CD, DE, EF, EG, BB
View "X"
442.9
[17.44]
429.3
[16.90]
For O-ring
Ø 82.22 x 2.62
[Ø 3.237 x 0.103]
"X"
Coupling spline data:
Pitch diameter = 14.288 [0.5625]
Pressure angle = 30°
Number of teeth = 9
Pitch = 16/32
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 17.8 [0.70]
SAE A, option AB
+ 0.13
- 0.00
[+0.005]
[- 0.000]
Ø 82.6
[Ø 3.252]
15
[0.59]
SAE B, option BC
454.1
[17.88]
436.4
[17.18]
For O-ring
Ø 94.92 x 2.62
[Ø 3.737 x 0.103]
"X"
Ø 101.65
[Ø 4.002]
Coupling spline data:
Pitch diameter = 20.6375 [0.8125]
Pressure angle = 30°
Number of teeth = 13
Pitch = 16/32
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 29.5 [1.16]
+ 0.13
- 0.00
[+0.005]
[- 0.000]
17.5
[0.69]
View "X"
456.1
[17.96]
439.4
[17.30]
For O-ring
Ø 120.32 x 2.62
[Ø 4.737 x 0.103]
"X"
Ø 127.03
[Ø 5.001]
Coupling spline data:
Pitch diameter = 29.6333 [1.167]
Pressure angle = 30°
Number of teeth = 14
Pitch = 12/24
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 22.1 [0.87]
+ 0.13
- 0.00
[+0.005]
[- 0.000]
30.5
[1.20]
SAE C, option CD
View "X"
P102 058
4 threads
3/8-16UNC-2B
17.8 [0.70] deep
106.375
[4.188]
106.375
[4.188]
4 threads
1/2-13UNC-2B
22 [0.87] deep
146
[5.75]
146
[5.75]
6 threads
1/2-13UNC-2B
22 [0.87] deep
114.5
[4.51]
114.5
[4.51]
181
[7.13]
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
520L0603 • Rev 0804 • March 2016 75
Auxiliary mounting pad - options AB, BC, CD, DE, EF, EG, BB
View "X"
View "X"
SAE E, option EF
View "X"
SAE E, option EG
SAE D, option DE
"X"
464.8
[18.30]
448.1
[17.64]
For O-ring
Ø 153 x 3.0
[Ø 6.02 x 0.118]
Coupling spline data:
Pitch diameter = 41.275 [1.625]
Pressure angle = 30°
Number of teeth = 13
Pitch = 8/16
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 25.9 [1.02]
+ 0.13
- 0.00
[+0.005]
[- 0.000]
Ø152.45
[Ø 6.002]
49.9
[1.96]
For O-ring
Ø 158.42 x 2.62
[6.24 x 0.10]
"X"
Coupling spline data:
Pitch diameter = 41.275 [1.625]
Pressure angle = 30°
Number of teeth = 13
Pitch = 8/16
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 25.9 [1.02]
46.5
[1.83]
Ø 165.15
[Ø 6.501]
+ 0.13
- 0.00
[+0.005]
[- 0.000]
448.1
[17.64]
For O-ring
Ø 164.77 x 2.62
[Ø 6.48 x 0.10]
"X"
Coupling spline data:
Pitch diameter = 42.862 [1.687]
Pressure angle = 30°
Number of teeth = 27
Pitch = 16/32
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 28.5 [1.12]
49.9
[1.96]
Ø 165.15
[Ø 6.501]
+ 0.13
- 0.00
[+0.005]
[- 0.000]
473.1
[18.63]
P102 059
224.5
[8.84]
224.5
[8.84]
4 threads
3/4-10UNC-2B
41 [1.61] deep
224.5
[8.84]
224.5
[8.84]
4 threads
3/4-10UNC-2B
41 [1.61] deep
161]6
[6.36]
161.6
[6.36]
4 threads
3/4-10UNC-2B
41 [1.61] deep
448.1
[17.64]
473.1
[18.63]
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
76 520L0603 • Rev 0804 • March 2016
Auxiliary mounting pad - options AB, BC, CD, DE, EF, EG, BB
454.1
[17.88]
436.4
[17.18]
For O-ring
Ø 94.92 x 2.62
[Ø 3.737 x 0.103]
"X"
Ø 101.65
[Ø 4.002]
Coupling spline data:
Pitch diameter = 23.8125 [0.9375]
Pressure angle = 30°
Number of teeth = 15
Pitch = 16/32
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 24.49 [0.96]
+ 0.13
- 0.00
[+0.005]
[- 0.000]
22.6
[0.89]
View "X"
SAE B-B, option BB
P102 060
4 threads
1/2-13UNC-2B
22 [0.87] deep
146
[5.75]
146
[5.75]
Shaft dimensions
8.3
[0.33]
Coupling must not protude beyond this surface
P108 507E
66.68
[2.63]
U
W
V
T
Shaft dimensions
Undercut
Diameter
Full
Spline
Major
Diameter
Pitch
Diameter
Number
of
Teeth
Pitch Pressure
Angle
Spline
Shaft Option T U* V W
C8 39
[1.54]
42.5
[1.67]
44.35
[1.75]
42.8625
[1.8450]
27 16/32 30
Degrees
ANSI
B92.1
Side fit, Fillet
Root
F1 34.04
[1.34]
42.5
[1.67]
43.94
[1.73]
41.275
[1.825]
13 8/16 30
Degrees
ANSI
B92.1
Side fit, Fillet
Root
* Minimum active spline length for the specified torque ratings
Technical Information
Series 90 Axial Piston Pumps
Installation Drawings
520L0603 • Rev 0804 • March 2016 77
Frame Size 250
Manual Displacement Control (MDC), end cap twin ports, option 80
Ø 6.73
[Ø 0.265]
R 25.4
[R 1.0]
R 50.8
[R 2.0]
2x
"B"
"A"
30
minimum
30
minimum
Null
position
Torque applied to control handle shaft
not to exceed 17 Nm (150 lbf•in]
Maximum
displacement
Maximum
displacement
Manual displacement control handle
dimensions
Port N (optional), speed pick-up
9/16-18UNF-2B
View "W"
191
[7.52]
20
[0.79]
186 [7.32]
port L2
210
[8.27]
35.71
[1.41]
36.5
[1.44]
98
[3.86]
98
[3.86]
181 [7.13]
port L1
212 maximum
[8.35]
69.85
[2.75]
79.38
[3.13]
341
[13.43]
Approximate
center of gravity
"X"
"Z"
"Y"
331
[13]
Port L1
case drain
use highest
port as outlet
1-5/8-12UN-2B
419
[16.5]
108
[4.25]
228
[8.98]
Gauge port M5
servo pressure
9/16-18UNF-2B
Gauge port M4
servo pressure
9/16-18UNF-2B
7.9 [0.31]
136
[5.35]
View "Y"
View "Z"
56
[2.20]
112.25
[4.42]
224.5
[8.84]
142 [5.59]
port L2
143
[5.63]
201.5
[7.93]
Approximate
center of gravity
Port L2
case drain
1-5/8-12UN-2B
"W"
Ø 20.6
[Ø 0.81]
Rotation
CW
CCW
(2x)
(2x)
View "X"
Gauge port M3
Charge pressure
9/16-18UNF-2B
Multifunction
Valve
Multifunction
valve
Charge pressure
relief valve
Port S:
charge
pump Inlet
1- 1/2 -
3000 psi
split flange
boss per SAE
J518 (Code 61)
1/2-13UNC-2B
24 [0.94] minimum
full thread
Ports A and B
1- 1/2 - 6000 psi
split flange boss
per SAE J518 (Code 62)
5/8-11UNC-2B,
25 [0.98] minimum
full thread
Gauge port M10
charge pump Inlet
9/16-18UNF-2B
M2
Gauge port M1
system pressure A
9/16-18UNF-2B
Gauge port M2
system pressure B
9/16-18UNF-2B
B
M2
S
a
M1
M3
9.4
[0.37]
185.5
[7.30]
B
A
2
1
A
M10
M5
M4
P102 061
External charge plug
1 5/8-12 UNF
48
[1.9]
Ø165.1
Ø[6.5]
0
-0.05
[+0.000
[-0.002]
12
[0.472]
R 0.8 max.
[0.03]
[0.62 ±0.011]
15.65 ±0.25
20
[0.79]
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
78 520L0603 • Rev 0804 • March 2016
Auxiliary mounting pad - options AB, BC, CD, DE, EF, EG, BB
477.1
[18.78]
460.4
[18.13]
For O-ring
Ø 120.32 x 2.62
[Ø 4.737 x 0.103]
"X"
Ø 127.03
[Ø 5.001]
Coupling spline data:
Pitch diameter = 29.6333 [1.167]
Pressure angle = 30°
Number of teeth = 14
Pitch = 12/24
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 22.1 [0.87]
+ 0.13
- 0.00
[+0.005]
[- 0.000]
30.5
[1.20]
SAE B, option BC
475.1
[18.70]
457.4
[18.01]
For O-ring
Ø 94.92 x 2.62
[Ø 3.737 x 0.103]
"X"
Ø 101.65
[Ø 4.002]
Coupling spline data:
Pitch diameter = 20.6375 [0.8125]
Pressure angle = 30°
Number of teeth = 13
Pitch = 16/32
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 29.5 [1.16]
+ 0.13
- 0.00
[+0.005]
[- 0.000]
17.5 [0.69]
SAE C, option CD
6 threads
1/2-13UNC-2B
22 [0.87] deep
View "X"
114.5
[4.51]
114.5
[4.51]
181
[7.13]
463.90
[18.26]
450.30
[17.73]
Coupling spline data:
Pitch diameter = 14.288 [0.5625]
Pressure angle = 30°
Number of teeth =
9
Pitch = 16/32
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 17.8 [0.70]
For O-ring
Ø 82.22 x 2.62
[Ø 3.237 x 0.103]
+ 0.13
- 0.00
[+ 0.005]
[- 0.000]
Ø 82.6
[Ø 3.252]
15
[0.59]
"X"
SAE A, option AB
View "X"
4 threads
3/8-16UNC-2B
17.8 [0.70] deep
106.375
[4.188]
106.375
[4.188]
4 threads
1/2-13UNC-2B
22 [0.87] deep
View "X"
146
[5.75]
146
[5.75]
P102 062
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
520L0603 • Rev 0804 • March 2016 79
Auxiliary mounting pad – options AB, BC, CD, DE EF, EG, BB
View "X"
SAE E, option EF
View "X"
SAE E, option EG
2
SAE D, option DE
"X"
485.8
[19.13]
469.1
[18.47]
For O-ring
Ø 153 x 3.0
[Ø 6.02 x 0.118]
Coupling spline data:
Pitch diameter = 41.275 [1.625]
Pressure angle = 30°
Number of teeth = 13
Pitch = 8/16
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 25.9 [1.02]
+ 0.13
- 0.00
[+0.005]
[- 0.000]
Ø 152.45
[Ø 6.002]
49.9
[1.96]
2
494.1
[19.45]
469.1
[18.47]
For O-ring
Ø 158.42 x 2.62
[Ø 6.24 x 0.10]
"X"
Coupling spline data:
Pitch diameter = 41.275 [1.625]
Pressure angle = 30
Number of teeth = 13
Pitch = 8/16
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 25.9 [1.02]
48.5
[1.91]
Ø 165.15
[Ø 6.501]
+ 0.13
- 0.00
[+0.005]
[- 0.000]
2
469.1
[18.47]
For O-ring
Ø 164.77 x 2.62
[Ø 6.48 x 0.10]
"X"
Coupling spline data:
Pitch diameter = 42.862 [1.687]
Pressure angle = 30°
Number of teeth = 27
Pitch = 16/32
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 28.5 [1.12]
46.5
[1.83]
Ø 165.15
[Ø 6.501]
+ 0.13
- 0.00
[+0.005]
[- 0.000]
494.1
[19.45]
B
M2
S
a
M1
M3
A
M10
M5
M4
4 threads
3/4-10UNC-2B
41 [1.61] deep
161.6
[6.36]
161.6
[6.36]
B
M2
S
a
M1
M3
A
M10
M5
M4
4 threads
3/4-10UNC-2B
41 [1.61] deep
224.5
[8.84]
224.5
[8.84]
B
M2
S
a
M1
M3
A
M10
M5
M4
4 threads
3/4-10UNC-2B
41 [1.61] deep
224.5
[8.84]
224.5
[8.84]
P102 063
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
80 520L0603 • Rev 0804 • March 2016
Auxiliary mounting pad – options AB, BC, CD, DE, EF, EG, BB
2
475.1
[18.70]
457.4
[18.01]
For O-ring
Ø 94.92 x 2.62
[Ø 3.737 x 0.103]
"X"
Ø 101.65
[Ø 4.00]
Coupling spline data:
Pitch diameter = 23.8125 [0.9375]
Pressure angle = 30
Number of teeth = 15
Pitch = 16/32
ANSI B92.1-1970, class 6,
fillet root side fit
Length of spline = 24.49 [0.96]
+ 0.13
- 0.00
[+0.005]
[- 0.000]
22.6
[0.89]
B
M2
S
a
M1
M3
A
M10
M5
M4
4 threads
1/2-13UNC-2B
22 [0.87] deep
View "X"
146
[5.75]
146
[5.75]
SAE B-B, option BB
P102 064
Shaft dimensions
7.9
[0.311]
66.8
[2.63]
Coupling must not protude beyond this surface
Option F1
ANSI B92.1 1970 KL.5 (13 tooth)
38.54
[1.52]
27.9
[1.10]
43.89
[1.73]
7.9
[0.311]
Coupling must not protude beyond this surface
Option C8
ANSI B92.1 1970 KL.5 (27 tooth)
39
[1.54]
56
[2.20]
44.35
[1.75]
42.8625
[1.687]
P108 508E
66.8
[2.63]
41.275
[1.625]
*
* Minimum active spline length
for the specified torque ratings
*
Shaft spline data:
Pitch diameter = 41.275 [1.625]
Pressure angle = 30°
Number of teeth = 13
Pitch = 8/16
ANSI B92.1
Fillet root side fit
Shaft spline data:
Pitch diameter = 42.8625 [1.6875]
Pressure angle = 30°
Number of teeth = 27
Pitch = 16/32
ANSI B92.1
Fillet root side fit
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
520L0603 • Rev 0804 • March 2016 81
Cover Plate
Option CA
View "W"
C3
"W"
C1 C1
C2
Port
M4
C4 maximumC4 maximum
Port
M5
Displacement limiter
option 4
limitation both sides
P102065
2
Dimensions
Frame size C1 C2 C3 C4 maximum (option 4)
042 67.9 [2.67] 129.5 [5.10] 99.5 [3.92] 108 [4.25]
055 69.2 [2.72] 179.4 [7.06] 103.6 [4.08] 114 [4.48]
075 74.2 [2.92] 185.7 [7.31] 109.4 [4.31] 118 [4.65]
100 83.3 [3.28] 183.3 [7.22] 118.3 [4.66] 136 [5.35]
130 86.6 [3.41] 209.3 [8.24] 137.2 [5.40] 141 [5.55]
180 - - - 184 [7.24]
250 - - - 184 [7.24]
3-Position (F-N-R) Electric Control
View "W"
C5 maximum
Option DC & DD
"W"
P102065a
a
b
2
C5.1
C5.2
Technical Information
Series 90 Axial Piston Pumps
Installation Drawings
82 520L0603 • Rev 0804 • March 2016
Dimensions
Frame size C5 maximum C5.1 C5.2
042 196.5 [7.74] 108.8 [4.28] 106.2 [4.18]
055 200.6 [7.90] 108.8 [4.28] 106.2 [4.18]
075 207.9 [8.19] 108.8 [4.28] 106.2 [4.18]
100 216.8 [8.54] 117.4 [4.62] 97.6 [3.84]
130 235.7 [9.28] 102.4 [4.03] 112.6 [4.43]
180 252.4 [9.94] 94.6 [7.32] 120.4 [4.74]
250
[option DD only]
210.4 [8.28] 94.6 [7.32] 120.4 [4.74]
Electric Displacement Control (EDC) with MS-Connector or Packard® connector
C7
(Frame size 042 only)
Frame size 042 only
C7
View "W"
2
P102 066
"W"
C6
Port
X1
Port
X2
Option KA & KP
Packard-
Connector
option KP
Dimensions
Frame size C6 C7
042 95.3 [3.75] 168.6 [6.64]
055 95.3 [3.75] 141.2 [5.56]
075 105.2 [4.14] 144.8 [5.70]
100 114.0 [4.49] 153.7 [6.05]
130 99.1 [3.90] 172.7 [6.80]
180 93.4 [3.68] 190.0 [7.48]
250 93.4 [3.68] 226.2 [8.91]
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
520L0603 • Rev 0804 • March 2016 83
Hydraulic Displacement Control (HDC)
Option HF
View "W"
C8.2 (port X1)
C9
C11
Port X1
2
C12
C10
Port X2
"W"
C8.1 (port X2)
Dimensions
Frame size C8.1 C8.2 C9 C10 C11 C12
042 143.5 [5.65] 135.0 [5.31] 71.0 [2.79] 75.7 [2.98] 89.6 [3.52] 99.2 [3.90]
055 150.8 [5.94] 139.0 [5.47] 71.0 [2.79] 75.7 [2.98] 105.6 [4.15] 115.2 [4.53]
075 148.9 [5.86] 139.0 [5.47] 68.2 [2.68] 67.0 [2.63] 121.8 [4.79] 125.3 [4.93]
100 158.0 [6.22] 149.0 [5.86] 76.8 [3.02] 67.0 [2.63] 127.9 [5.03] 131.4 [5.17]
130 176.7 [6.95] 167.7 [6.60] 61.8 [2.43] 67.0 [2.63] 142.1 [5.59] 145.6 [5.73]
180/250 194.0 [7.63] 185.0 [7.28] 54.0 [2.12] 67.0 [2.63] 148.6 [5.85] 152.1 [5.99]
Manual Displacement Control (MDC) with neutral start switch
Option MB
View "W"
C14
"W"
Neutral
start switch
C13
2
P102 067
Dimensions
Frame size C13 C14
042 0.35 [0.014] 96.0 [3.78]
055 18.0 [071] 100.0 [3.94]
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
84 520L0603 • Rev 0804 • March 2016
Dimensions (continued)
Frame size C13 C14
075 25.0 [0.98] 106.9 [4.21]
100 31.3 [1.23] 115.8 [4.56]
130 46.0 [1.81] 134.5 [5.29]
180 52.0 [2.04] 151.8 [5.97]
250 52.0 [2.04] 151.8 [5.97]
Electrohydraulic Displacement Control (NFPE)(except 075 NFPE)
"V"
"W"
View "V"
View "W"
Y
X
Y
P003 165
Option FA, FB, FC, FD
Option FG, FH
B
A
Dimensions
Frame Size Option “X” “Y”
042 FA, FB, FC, FD 169.30 [6.67] 140.00 [5.51]
055 FA, FB, FC, FD 207.00 [8.15] 145.00 [5.71]
075 Special version see Frame Size 075 NFPE Options FK, FL, FM, FN on page 60
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
520L0603 • Rev 0804 • March 2016 85
Dimensions (continued)
Frame Size Option “X” “Y”
100 FA, FB, FC, FD 235.00 [9.25] 161.10 [6.34]
100 FG, FH 176.60 [6.95]
130 FG, FH 244.10 [9.61] 195.50 [7.70]
180 FG, FH 290.00 [11.42] 213.00 [8.39]
250 — — —
Integral Pressure Filter
F4 maximum
Gauge port M3
charge pressure
after filter
9/16-18UNF
View "X"
Gauge port M6
charge pressure
before filter
9/16-18UNF
Option P & L
"X"
F1 = short filter cartridge (option P)
F2 = long filter cartridge (option L)
F3
22.86
[0.90]
20.3 minimum
[0.80 minimum]
Required
for removal
180
180
Ø 94.2 maximum
[Ø 3.71 maximum]
Frame size 042 – 130 = option P
Frame size 042 – 250 = option L
Remote pressure – without filter
Option R & T
View "X"
Port E
from filter
7/8-14UNF (option R)
1
1
/
16
-12UN (option T)
5.6
[0.22]
5.6
[0.22]
Port D
to filter
7/8-14UNF
(option R)
1
1
/
16
-12UN
(option T)
F5 maximum
F6 maximum
F7 maximum
"X"
F3
Gauge port M3
charge pressure
after filter
9/16-18UNF
180
180
28.5
[1.12]
Frame size 042 – 130 = option R
Frame size 180 – 250 = option T
P102 068
Technical Information
Series 90 Axial Piston Pumps
Installation Drawings
86 520L0603 • Rev 0804 • March 2016
Dimensions
Frame size F1 F2 F3 F4 maximum F5 maximum F6 maximum F7 maximum
042 174.5 [6.87] 262.6 [10.34] 201.4 [7.93] 207.7 [8.12] 112.7 [4.44] 152.7 [6.01] 168.0 [6.61]
055 174.5 [6.87] 262.6 [10.34] 240.9 [8.19] 209.6 [8.25] 114.3 [4.50] 154.3 [6.07] 169.6 [6.68]
075 174.5 [6.87] 262.6 [10.34] 253.2 [9.67] 214.4 [8.44] 119.1 [4.69] 159.1 [6.26] 174.4 [6.86]
075 NFPE 174.5 [6.87] 262.4 [10.34] 253.7 [9.99] 214 [8.441] 119 [4.691] 159 [6.264] 174 [6.866]
100 174.5 [6.87] 262.6 [10.34] 280.7 [11.05] 223.0 [8.78] 127.7 [5.03] 167.7 [6.60] 183.0 [7.20]
130 174.5 [6.87] 262.6 [10.34] 299.9 [11.81] 223.0 [9.17] 137.7 [5.03] 177.7 [6.99] 193.0 [7.60]
180 - - 327.8 [12.90] - 182.0 [7.16] 236.8 [9.32] 259.2 [10.2]
250 - - 342.8 [13.49] - 182.0 [7.16] 236.8 [9.32] 259.2 [10.2]
Technical Information Series 90 Axial Piston Pumps
Installation Drawings
520L0603 • Rev 0804 • March 2016 87
Technical Information Series 90 Axial Piston Pumps
88 520L0603 • Rev 0804 • March 2016
Technical Information Series 90 Axial Piston Pumps
520L0603 • Rev 0804 • March 2016 89
Technical Information Series 90 Axial Piston Pumps
90 520L0603 • Rev 0804 • March 2016
Danfoss Power Solutions is a global manufacturer and supplier of high-quality hydraulic and
electronic components. We specialize in providing state-of-the-art technology and solutions
that excel in the harsh operating conditions of the mobile off-highway market. Building on
our extensive applications expertise, we work closely with our customers to ensure
exceptional performance for a broad range of off-highway vehicles.
We help OEMs around the world speed up system development, reduce costs and bring
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520L0603 • Rev 0804 • March 2016 www.danfoss.com
©
Danfoss A/S, 2016
Products we offer:
•
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•
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•
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