Bench Test Procedure for Hydraulic Piston Pumps {0784, 5070} Caterpillar

Bench Test Procedure for Hydraulic Piston Pumps {0784, 5070}

Usage:

M318 6ES

Excavator: 5110B (S/N: AAA1-UP; AAK1-UP; AAT1-UP)
Wheeled Excavator: M312 (S/N: 6TL1-119,126-129,131-137,140-145); M313C (S/N: BDR1-UP); M313D (S/N: J3A1-UP; K3D1-UP); M314F (S/N: F4A1-UP); M315 (S/N: 7ML1-UP); M315C (S/N: BDM1-UP); M315D (S/N: J5B1-UP; K5E1-UP); M315D2 (S/N: CH31-UP; CA41-UP); M315F (S/N: F4D1-UP); M316C (S/N: H2C1-UP; BDX1-UP); M316D (S/N: P6K1-UP; D6W1-UP); M316F (S/N: F6N1-UP); M317D2 (S/N: CH51-UP; CA61-UP); M317F (S/N: F6P1-UP); M318 (S/N: 8AL1-UP; 6ES1-UP; 8SS1-UP); M318C (S/N: BEB1-UP; H2D1-UP; BCZ1-UP); M318D (S/N: P8L1-UP; P9M1-UP; D8W1-UP; D9X1-UP); M320 (S/N: 6WL1-UP; 9PS1-UP); M320D2 (S/N: EN81-UP; CH91-UP); M322C (S/N: BDK1-UP; BDY1-UP); M322D (S/N: P2T1-UP; D2W1-UP; P3W1-UP; D3X1-UP); M322D 2 MH (S/N: EN91-UP); M322D2 (S/N: EN21-UP); M323F (S/N: RH31-UP); M324D 2 MH (S/N: EN31-UP)

Introduction

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Table 1
Revision	Summary of Changes in REHS1526
20	Updated effectivity.
19	Added new Wheeled Excavator serial number prefixes FB4 and FB6 to document.
19	Added new part numbers 423-2541 Piston Pump Gp and 505-5268 Piston Pump Gp to document.
18	Added new Wheeled Excavator serial number prefixes F4D and F6P to document.
	Added new part number 489-3973 Piston Pump Gp to document.
	Updated Test Specifications Tables.
17	Added new Wheeled Excavator serial number prefixes EN2, EN3, EN8, and EN9 to document.
16	Added part numbers 432-8564 Piston Pump Gp and 432-8565 Piston Pump Gp to document.
16	Added new Excavator serial number prefixes CA4 and CA6 to document.

© 2018 Caterpillar All Rights Reserved. This guideline is for the use of Cat dealers only. Unauthorized use of this document or the proprietary processes therein without permission bay be violation of intellectual property law. Information contained in this document is considered Caterpillar: Confidential Yellow.

This Special Instruction includes test procedures for piston pumps. This Special Instruction also provides specifications. The technician should have a good understanding of hydraulic piston pumps. The technician should be educated in the operation of the hydraulic test bench. The test benches in this document are available through the Caterpillar Dealer Service Tools. Gather all necessary tooling before you need to hook up the pump. Some of the required tooling appears in a table at the end of this document. There are many possible variations of tooling that could be used. Not every possible variation can be listed.

For technical questions when using this document, work with your Dealer Technical Communicator (TC).

To report suspected errors, inaccuracies, or suggestions regarding the document, submit a form for feedback in the Service Information System (SIS Web) interface.

Canceled Part Numbers and Replaced Part Numbers

This document does not include Canceled part numbers and replaced part numbers. Use NPR on SIS for information about Canceled part numbers and replaced part numbers. NPR will provide the current part numbers for replaced parts.

Safety

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Illustration 1	g02139237

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Personal injury or death can result from improperly checking for a leak.
Always use a board or cardboard when checking for a leak. Escaping air or fluid under pressure, even a pin-hole size leak, can penetrate body tissue causing serious injury, and possible death.

If fluid is injected into your skin, it must be treated immediately by a doctor familiar with this type of injury.

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Hot oil and hot components can cause personal injury. Do not allow hot oil or hot components to contact skin.

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Pump test pressures in this guideline may exceed the normal operating range of the hydraulic test hoses utilized when connecting the tested pump to the test bench. However, the order of magnitude of these pressures is significantly below the burst strength of the Caterpillar "XT6" product.
High pressure oil can escape through improperly assembled hoses and fittings. High pressure oil can also escape through poorly maintained hoses and fittings. High pressure oil may also leak through hose that has become damaged over the life of the hose due to the pressure levels that occur during test bench operation.
Personal injury or death can result from improper hose & fitting inspection or improper hose replacement procedures. Escaping fluid under pressure can penetrate body tissue causing serious injury, and possible death.

Thoroughly inspect all testing hoses, fittings, and quick disconnects prior to any testing operation. Check the assembly date tag or hose assembly log date for a hose life indicator. Replace all Test Bench hoses at a minimum of every 2 years or earlier if the hose or fittings appear to be damaged.

Summary

This procedure is specific to the type of pump and the type of control. Refer to the test specifications and the tooling at the end of this document.

Note: A paper copy of this document may not be the latest version. Go to the Service Information System (SIS) to view the latest version.

References

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Table 2
References
Media Number	Title
REHS1761	Required Tooling for Bench Testing Hydraulic Components
SEBF8810	Hydraulic Pump, Motor, and Cylinder Bench Test Procedure Reference Manual
SEHS8892	Operating Instructions for Caterpillar 1U-9400 Series Hydraulic Test Center
NEHS0563	Tool Operating Manual for 9U-5000 Series Hydraulic Test Bench

Connections for the Caterpillar Hydraulic Test Center

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Illustration 2	g01063311
Connections for the Test Center (1) Flow control for discharge (2) "F3" flow meter inlet (3) "F4" flow meter inlet (4) Oil supply from the auxiliary pump (5) "F3" inlet for the flow meter with flow limiter (6) "F3"outlet for the flow meter with pressure control (7) Load sensing pressure (8) Signal pressure (9) "F4" outlet for the flow meter (10) Return to tank (11) Connections for case drain (12) Oil supply

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Illustration 3	g01063312
Control and Gauges for the Test Center (13) Meter for speed and torque (14) Gauge for signal pressure (15) Control for signal pressure (16) Pressure gauge for auxiliary pump (17) Auxiliary pump flow (18) "F3" discharge pressure gauge (19) "F3" discharge flow (20) "F4" discharge pressure gauge (21) "F4" discharge flow (22) Auxiliary pump flow control (23) "F3" margin pressure (24) "F3" Load control for discharge pressure (25) "F4" Load control for discharge pressure

Connections for the Caterpillar Hydraulic Test Bench

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Illustration 4	g01063314
Connections for the Test Bench (26) "Flow meter 1" loop and "Flow meter 2" loop (27) Oil Supply

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Illustration 5	g01093468
Connections for the Test Bench (28) "Flow meter 2" loop (29) "Flow meter 1" loop (30) "Flow meter 2" outlet (31) Signal pressure line (32) "Flow meter 2" inlet (33a) "Flow meter 1" outlet (33b) Auxiliary oil supply outlet (34) Auxiliary oil supply inlet (35) "Flow meter 1" inlet

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Illustration 6	g01063316
Control and Gauges for the Test Bench (36) Auxiliary oil supply pressure (37) Signal pressure (38) Control for signal pressure (39) "Flow meter 1" discharge pressure (40) Control for auxiliary oil supply pressure (41) "Flow meter 2" discharge pressure (42) Auxiliary oil supply control (43) "Flow meter 2" discharge flow (44) Discharge flow for auxiliary pump (45) "Flow meter 1" discharge flow (46) "Flow meter 1" load control (47) Speed and direction control (48) "Flow meter 2" load control

Port Locations

Note: This piston pump is produced with multiple types of housing. Port locations will vary. Match the correct illustration with the pump that is being worked on.

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Illustration 7	g03642226
Typical port locations and adjustments (49) Adjustment screw for constant power (50) Case drain port (51) Discharge port (52) Signal port for load sensing (53) Adjustment screw for margin pressure (54) Pressure port for power shift (55) Adjustment screw for minimum angle (56) Adjustment screw for maximum angle (57) Pressure port for destroke (58) Suction port (70) Gauge port for discharge pressure (71) Control pressure port (reads discharge pressure, also)

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Illustration 8	g01152206
Typical port locations and adjustments (49) Adjustment screw for constant power (52) Signal port for load sensing (53) Adjustment screw for margin pressure (54) Pressure port for power shift (59) Adjustment screw for the load sensing signal orifice

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Illustration 9	g01152237
Typical port locations and adjustments (49) Adjustment screw for constant power (52) Signal port for load sensing (53) Adjustment screw for margin pressure (54) Pressure port for power shift

4C-3582 4C-3582 4C-3582 Load Sensing Valve

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Illustration 10	g01165210
4C-3582 Load Sensing Valve

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Illustration 11	g01165214
4C-3582 Load Sensing Valve

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Illustration 12	g01165257
Schematic for 4C-3582 Load Sensing Valve (60) Outlet port (61) Adjustment for the discharge flow (62) Inlet port (63) High-pressure port (64) Adjustment for the discharge pressure (65) Low-pressure port (66) Pressure port for load sensing

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Illustration 13	g01165258
4C-3582 Load Sensing Valve and 1U-5796 Pressure Differential Gauge (60) To the flow meter on the test bench (61) Adjustment knob for discharge flow (62) From the pump discharge port (63) To the high side of the differential gauge (64) Load control for pump discharge pressure (65) To the low side of the differential gauge (66) Pressure port for load sensing (67) Pressure differential gauge group (68) To the low side of the load sensing group (69) To the high side of the load sensing valve

Note: Do not install the Load Sensing Valve until called for in Step 3 of the Test Procedure.

Connect a 1 inch high pressure (XT6) hose from pump discharge port (51) to inlet port (63) on the 4C-3582 Load Sensing Valve.
Connect a 1 inch high pressure (XT6) hose from outlet port (60) on the 4C-3582 Load Sensing Valve to the flow meter inlet on the test bench.
Connect a 6D-7726 Hose Assembly to the pressure port for load sensing (66). Connect the other end of 6D-7726 Hose Assembly to the pressure port for load sensing (52) on the pump.
Note: Do not use 1U-5754 Hose Assembly or 1U-5755 Hose Assembly for sensing signal lines. The flow rate through these hoses will not compensate for the possible leakage through the control valve. Erratic readings will result.
Connect the 1U-5796 Pressure Differential Gauge Group (67) to the high-pressure port (62) and low-pressure port (65) on the 4C-3582 Load Sensing Valve. The port marked "hi" (69) on the 1U-5796 Pressure Differential Gauge Group should be hooked up to the port marked "hi" (62) on the 4C-3582 Load Sensing Valve. The port marked "low" (68) on the 1U-5796 Pressure Differential Gauge Group should be hooked up to the port marked "low" (65) on the 4C-3582 Load Sensing Valve.

Note: The ports marked "low" (65) and "sense line" (66) on the 4C-3582 Load Sensing Valve are reading the same pressure.

Pump Pre-Test Set Up

Connect a hose from the test bench oil supply (12) or (27) to suction port (58) on the pump.
Purge all air from the suction line before rotating the pump. Loosen the suction hose at the pump until oil leaks from the connection. Tighten the suction hose.
Fill the pump case with oil before rotating. Pour oil directly into a case drain port until the case is full.
Connect an in-line flow meter to the pump case drain port (50). Connect a hose assembly to the flow meter by using the proper fittings to direct the flow to the reservoir.
Connect a hose from pressure port (51) to the flow meter inlet on the test bench.
Install a pressure tap to the pressure port for destroke (57). Connect an 8T-0861 Pressure Gauge to port (57). 8T-0861 Pressure Gauge has an operation range of 0-60000 kPa (0-8700 psi).
Connect a 177-7860 Hose Assembly from the signal pressure line on the test bench to power shift pressure port (54).
For Steps 1,2,4,5, and 6 of the Test Procedure connect a 177-7860 Hose Assembly from Control pressure port (71) to Signal port for load sensing (52). See Illustration 7 for port locations. This connection will allow pump to upstroke when necessary. Be sure that this hose is not connected during Step 3 of the Test Procedure.
Do not rotate the pump in the wrong direction. The correct direction of rotation will be stated on the pump. The direction of rotation is viewed from the input shaft end. Visually check for proper rotation of the test bench .

Test Procedure

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Illustration 14	g01152315
(59) Adjustment screw for the load sensing signal orifice

Use the adjustment screw for the load sensing signal orifice (59) to adjust pumps that use the type of control that is shown in Illustration 8. Adjust dimension A to 11.5 mm (0.45 inch). No further adjustment of this screw is necessary.

Note: The steps in the procedure correlate with the steps in the test specifications according to your specific part number.

Note: The hydraulic oil in the test bench should meet a contamination ISO rating of 16/13 or cleaner. The oil in the test bench should be one of the following.

SAE 10W at 50 °C (122 °F) or
Mobil DTE-11 at 46 °C (115 °F)

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Illustration 15	g01158251

This type of pump control purges the pressure for load sensing to limit system pressure. Therefore, no adjustment for maximum system pressure is done during this bench test. The limiter valve for the load sensing signal is located elsewhere in the hydraulic system. Refer to Testing and Adjusting, "Relief Valve (Signal Limiter) - Test and Adjust" for your specific machine.

Note: Apply powershift pressure to all Steps of the Test Procedure according to the Test Specifications.

Start rotating the pump according to the RPM in Step 1 of the test specifications. Listen for abnormal noise. Verify flow from the pump. Verify that all connections are tight. Check for leaks around shaft seals. Check for leaks around the control valve.
Slowly increase the input RPM to the value in Step 2 of the test specifications. If the actual flow is less than the value in Step 2 of the test specifications, adjust the adjustment screw for maximum angle (56) of the pump.
Reduce RPM and all pressures to zero. Use the following steps to set margin pressure.
1. The 4C-3582 Load Sensing Valve should only be used during this step. The Load Sensing Valve limits the pump discharge flow. This loss of flow may cause erratic readings. Only use the Load Sensing Valve for Step 3. Install the 4C-3582 Load Sensing Valve into the system. Refer to the heading "4C-3582 4C-3582 4C-3582 Load Sensing Valve" for instructions to install the Load Sensing Valve.
2. Slowly increase the pump RPM to the value in Step 3. To check the margin, load the discharge by turning the adjustment knob for discharge pressure (64) clockwise until discharge pressure is equal to the value in Step 3. Restrict flow by turning the adjustment knob for discharge flow (61) clockwise until discharge flow is equal to the value in Step 3. Check the pressure reading on the 1U-5796 Pressure Differential Gauge. If the pressure is not within the specifications, adjust the adjustment screw for margin pressure (53) accordingly. Adjust the load control for pump discharge pressure (64) and the adjustment knob for discharge flow (61) counterclockwise all the way after the margin pressure is set. Reduce RPM and all pressures to zero.
3. Remove the 4C-3582 Load Sensing Valve from the system. Return hoses to the original positions.
Slowly increase the pump RPM to the value in Step 4. Increase the power shift pressure to the value in Step 4. To check the destroke point of the pump, slowly increase discharge pressure to the value in Step 4 of the test specifications by turning the load control for discharge pressure (24) or (46) clockwise. Monitor the discharge flow while the pump pressure is increased. The pump should start to destroke at the value of discharge pressure in Step 4. If the flow does not begin to decrease at this pressure, adjust the constant power screw (49). Turn clockwise to raise the destroke point. Turn counterclockwise to lower the destroke point.
Note: For test benches with an input torque meter, the pump input torque will rise until the pump starts to destroke. The torque should remain constant at the value in Step 4 for the remaining two steps. The pump discharge pressure will increase while the discharge flow will decrease to keep the same input torque.
Increase the pump discharge pressure to the values in Step 5 of the test specifications. Compare the discharge flow to the value in Step 5. This step further verifies the operation of the power compensator.
Increase the pump discharge pressure to the values in Step 6 of the test specifications. Compare the actual case drain flow with the value in Step 6 of the test specifications. If the pump case drain is not within specifications, the pump may not be mechanically feasible. Internally inspect the pump.

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Hot oil and hot components can cause personal injury. Do not allow hot oil or hot components to contact skin.

Reduce RPM and all pressures to zero. Remove the component from the test bench. Drain the oil from the pump. Plug all ports.

Test Specifications

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Table 3
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
________	____________________________
	1	_______	__________	__________				__________
	2	_______	__________	__________				__________
	3	_______	__________	__________		__________	__________	__________
	4	_______	__________	__________	__________			__________
	5	_______	__________	__________	__________			__________
	6	_______	__________	__________	__________			__________	__________

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 4
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
111-3727	Pump Rotation CW
	1	1000	0	126 (33.5)				1434 (208)
	2	2000	0	254 (67)				1434 (208)
	3	2000	11997 (1740)	126 (33.5)		9701-9997 (1407-1450)	2000-2296 (290-333)	1434 (208)
	4	2000	12493 (1812)	245 (65)	272 (2407)			1434 (208)
	5	2000	23993 (3480)	125 (33)	272 (2407)			1434 (208)
	6	2000	31000 (4496)	90 (23)	272 (2407)			1434 (208)	6.5 (1.7)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 5
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
128-4326	Pump Rotation CW
	1	1000	0	162 (43)				827 (120)
	2	2000	0	324 (86)				827 (120)
	3	2000	10000 (1450)	162 (43)		7725-8000 (1120-1160)	2000-2275 (290-330)	827 (120)0
	4	2000	10500 (1523)	315 (83)	454 (4018)			827 (120)
	5	2000	20000 (2900)	158 (42)	454 (4018)			827 (120)
	6	2000	28793 (4176)	85 (22)	454 (4018)			827 (120)	9.6 (2.5)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 6
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
130-2447	Pump Rotation CW
	1	1650	0	215 (56.6)				1150 (167)
	2	2300	0	300 (78.9)				1150 (167)
	3	2300	10000 (1450)	150 (39.5)		7725-8000 (1120-1160)	2000-2206 (290-320)	1150 (167)
	4	2300	11000 (1595)	215 (57)	210 (1859)			1150 (167)
	5	2300	20000 (2900)	114 (30)	210 (1859)			1150 (167)
	6	2300	28800 (4177)	74 (20)	210 (1859)			1150 (167)	6.5 (1.7)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 7
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
130-7673	Pump Rotation CW
	1	1000	0	91 (24)				1200 (174)
	2	2000	0	182 (48)				1200 (174)
	3	2000	10000 (1450)	91 (24)		7725-8000 (1120-1160)	2000-2206 (290-320)	1200 (174)
	4	2000	11294 (1638)	178 (47)	181 (1602)			1200 (174)
	5	2000	24000 (3480)	80 (21)	181 (1602)			1200 (174)
	6	2000	28800 (4177)	63 (17)	181 (1602)			1200 (174)	4.7 (1.2)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 8
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
153-8179	Pump Rotation CCW
	1	600	0	147 (38)				2000 (290)
	2	1200	0	294 (77)				2000 (290)
	3	1200	12000 (1740)	147 (38)		10100 (1460)	1900 (280)	2000 (290)
	4	1200	22000 (3190)	263 (69)	907 (8028)			2000 (290)
	5	1200	27000 (3920)	213 (56)	907 (8028)			2000 (290)
	6	1200	32000 (4640)	175 (46)	907 (8028)			2000 (290)	13 (4)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 9
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
190-8198	Pump Rotation CW
	1	1000	0	140 (37)				1600 (231)
	2	2000	0	280 (74)				1600 (231)
	3	2000	10000 (1450)	140 (37)		7225-7897 (1120-1145)	2103-2275 (305-330)	1600 (231)
	4	2000	11400 (1653)	276 (73)	280 (2478)			1600 (231)
	5	2000	25000 (3626)	120 (32)	280 (2478)			1600 (231)
	6	2000	31500 (4569)	88 (23)	280 (2478)			1600 (231)	7.25 (1.9)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 10
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
190-8212	Pump Rotation CW
	1	1000	0	126 (33)				1448 (210)
	2	2000	0	252 (67)				1448 (210)
	3	2000	8000 (1160)	126 (33)		5725-5897 (830-855)	2103-2275 (305-330)	01448 (210)
	4	2000	9300 (1349)	248 (66)	210 (1859)			1448 (210)
	5	2000	22000 (3191)	100 (26)	210 (1859)			1448 (210)
	6	2000	31500 (4569)	57 (15)	210 (1859)			1448 (210)	7.25 (1.9)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 11
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
197-9994	Pump Rotation CW
	1	1000	0	177 (47)				1600 (232)
	2	2000	0	354 (94)				1600 (232)
	3	2000	8000 (1160)	177 (47)		5725-5897 (830-855)	2103-2275 (305-330)	01600 (232)
	4	2000	9900 (1436)	346 (91)	310 (2744)			1600 (232)
	5	2000	23000 (3336)	140 (37)	310 (2744)			1600 (232)
	6	2000	31500 (4569)	90 (24)	310 (2744)			1600 (232)	9.6 (2.5)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 12
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
207-4707	Pump Rotation CW
	1	1000	0	111 (29)				1600 (232)
	2	2000	0	222 (58)				01600 (232)
	3	2000	10000 (1450)	111 (29)		7225-7897 (1120-1145)	2103-2275 (305-330)	1600 (232)
	4	2000	10600 (1537)	217 (57)	210 (1859)			1600 (232)
	5	2000	22100 (3205)	101 (27)	210 (1859)			1600 (232)
	6	2000	31500 (4569)	57 (15)	210 (1859)			1600 (232)	7.25 (1.9)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 13
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
207-4709	Pump Rotation CW
	1	1000	0	92 (24)				1400 (203)
	2	2000	0	183 (48)				1400 (203)
	3	2000	10000 (1450)	92 (24)		7497-7697 (1116-1087)	2303-2503 (334-363)	1400 (203)
	4	2000	11300 (1639)	180 (48)	181 (1602)			1400 (203)
	5	2000	24100 (3495)	81 (21)	181 (1602)			1400 (203)
	6	2000	31500 (4569)	57 (15)	181 (1602)			1400 (203)	4.7 (1.2)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 14
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
240-0143	Pump Rotation CW
	1	1000	0	177 (47)				1600 (232)
	2	2000	0	354 (94)				1600 (232)
	3	2000	8000 (1160)	177 (47)		5725-5897 (830-855)	2103-2275 (305-330)	1600 (232)
	4	2000	9900 (1436)	346 (91)	310 (2744)			1600 (232)
	5	2000	23000 (3336)	140 (37)	310 (2744)			1600 (232)
	6	2000	31500 (4569)	90 (24)	310 (2744)			1600 (232)	9.6 (2.5)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 15
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
240-0145	Pump Rotation CW
	1	1000	0	140 (37)				1600 (231)
	2	2000	0	280 (74)				1600 (231)
	3	2000	10000 (1450)	140 (37)		7225-7897 (1120-1145)	2103-2275 (305-330)	1600 (231)
	4	2000	11400 (1653)	276 (73)	280 (2478)			1600 (231)
	5	2000	25000 (3626)	120 (32)	280 (2478)			1600 (231)
	6	2000	31500 (4569)	88 (23)	280 (2478)			1600 (231)	7.25 (1.9)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 16
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
240-0147	Pump Rotation CW
	1	1000	0	126 (33)				1448 (210)
	2	2000	0	252 (67)				1448 (210)
	3	2000	8000 (1160)	126 (33)		5725-5897 (830-855)	2103-2275 (305-330)	1448 (210)
	4	2000	9300 (1349)	248 (66)	210 (1859)			1448 (210)
	5	2000	22000 (3191)	100 (26)	210 (1859)			1448 (210)
	6	2000	31500 (4569)	57 (15)	210 (1859)			1448 (210)	7.25 (1.9)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 17
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
240-0149	Pump Rotation CW
	1	1000	0	111 (29)				1600 (232)
	2	2000	0	222 (58)				1600 (232)
	3	2000	10000 (1450)	111 (29)		7225-7897 (1120-1145)	2103-2275 (305-330)	1600 (232)
	4	2000	10600 (1537)	217 (57)	210 (1859)			1600 (232)
	5	2000	22100 (3205)	101 (27)	210 (1859)			1600 (232)
	6	2000	31500 (4569)	57 (15)	210 (1859)			1600 (232)	7.25 (1.9)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 18
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
240-0151	Pump Rotation CW
	1	1000	0	92 (24)				1400 (203)
	2	2000	0	183 (48)				1400 (203)
	3	2000	10000 (1450)	92 (24)		7497-7697 (1116-1087)	2303-2503 (334-363)	1400 (203)
	4	2000	11300 (1639)	180 (48)	181 (1602)			1400 (203)
	5	2000	24100 (3495)	81 (21)	181 (1602)			1400 (203)
	6	2000	31500 (4569)	57 (15)	181 (1602)			1400 (203)	4.7 (1.2)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 19
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
251-8028	Pump Rotation CW
	1	1000	0	91 (24)				1630 (236)
	2	2000	0	182 (47.9)				1630 (236)
	3	2000	10000 (1450)	91 (24)		7600-7800 (1102-1131)	2200-2400 (319-348)	1630 (236)
	4	2000	19000 (2755)	176 (46)	300 (2655)			1630 (236)
	5	2000	26000 (3770)	126 (33.2)	300 (2655)			1630 (236)
	6	2000	31500 (4568)	101 (25.5)	300 (2655)			1630 (236)	6.6 (1.7)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 20
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
251-8029	Tandem pump consisting of 251-8028 (see this document) and 207-4710 (see REHS2642)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 21
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
251-8030	Pump Rotation CW
	1	1000	0	110 (29)				1520 (220)
	2	2000	0	220 (58)				1520 (220)
	3	2000	10000 (1450)	110 (29)		7600-7800 (1102-1131)	2200-2400 (319-348)	1520 (220)
	4	2000	15500 (2248)	216 (57)	300 (2655)			1520 (220)
	5	2000	26000 (3770)	123 (32.4)	300 (2655)			1520 (220)
	6	2000	31500 (4568)	96 (25.2)	300 (2655)			1520 (220)	6.2 (1.6)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 22
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
251-8032	Pump Rotation CW
	1	1000	0	125 (32.9)				1060 (153)
	2	2000	0	250 (65.8)				1060 (153)
	3	2000	10000 (1450)	125 (32.9)		7600-7900 (1102-1145)	2100-2400 (305-348)	1060 (153)
	4	2000	9000 (1305)	247 (65)	159 ± 17 (1410 ± 150)			1060 (153)
	5	2000	20000 (2900)	108 (28.4)	159 ± 17 (1410 ± 150)			1060 (153)
	6	2000	31500 (4568)	62 (16.3)	159 ± 17 (1410 ± 150)			1060 (153)	6.5 (1.7)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 23
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
251-8033	Tandem pump consisting of 251-8032 (see this document) and 190-8213 (see REHS2642)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 24
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
251-8034	Pump Rotation CW
	1	1000	0	140 (36.8)				1290 (187)
	2	2000	0	280 (73.7)				1290 (187)
	3	2000	10000 (1450)	140 (38.2)		7600-7900 (1102-1145)	2100-2400 (305-348)	1290 (187)
	4	2000	10800 (1566)	2761 (72.6)	228 ± 23 (2017 ± 200)			1290 (187)
	5	2000	20000 (2900)	152 (40)	228 ± 23 (2017 ± 200)			1290 (187)
	6	2000	31500 (5003)	90 (23.7)	228 ± 23 (2017 ± 200)			1290 (187)	9.6 (2.5)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 25
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
251-8035	Tandem pump consisting of 251-8034 (see this document) and 190-8199 (see REHS2642)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 26
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
251-8036	Pump Rotation CW
	1	1000	0	175 (46.1)				1410 (204)
	2	2000	0	350 (92.2)				1410 (204)
	3	2000	10000 (1450)	175 (46.1)		7600-7900 (1102-1145)	2100-2400 (305-348)	1410 (204)
	4	2000	9500 (1378)	343 (90.2)	241 ± 23 (2129 ± 200)			1410 (204)
	5	2000	20000 (2900)	162 (42.6)	241 ± 23 (2129 ± 200)			1410 (204)
	6	2000	31500 (4568)	92 (24.2)	241 ± 23 (2129 ± 200)			1410 (204)	10.4 (2.7)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 27
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
251-8037	Tandem pump consisting of 251-8036 (see this document) and 196-8429 (see REHS2642)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 28
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
340-3402	Pump Rotation CW
	1	1000	0	110 (29)				1690 (245)
	2	2000	0	220 (58)				1690 (245)
	3	2000	10000 (1450)	126 (33.5)		7600-7800 (1102-1131)	2200-2400 (319-348)	1690 (245)
	4	2000	15500 (2248)	218 (57.3)	300 (2655)			1690 (245)
	5	2000	26000 (3770)	123 (32.4)	300 (2655)			1690 (245)
	6	2000	31500 (4568)	98 (25.8)	300 (2655)			1690 (245)	6.2 (1.6)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 29
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
340-3403	Tandem pump consisting of 340-3402 (see this document) and 382-6573 (see REHS2642)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 30
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
423-2541	Pump Rotation: CW
	1	1000	0	180 (48)				1630 (236)
	2	1500	0	271 (72)				1630 (236)
	3	1500	10000 (1450)	135 (36)		7900 (1145)	2100 (304)	1630 (236)
	4	1500	20900 (3031)	160 (42)	225 (1991)			1630 (236)
	5	1500	25500 (3698)	130 (34)	225 (1991)			1630 (236)
	6	1500	32000 (4641)	100 (26)	225 (1991)			1630 (236)	7 (2)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 31
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
423-2542	Pump Rotation: CW
	1	1000	0	130 (34)				1690 (245)
	2	2000	0	260 (68)				1690 (245)
	3	2000	10000 (1450)	130 (34)		7600-7900 (1100-1145)	2100-2400 (305-350)	1690 (245)
	4	2000	14000 (2030)	240 (63)	300 (2655)			1690 (245)
	5	2000	27000 (3920)	120 (31)	300 (2655)			1690 (245)
	6	2000	34000 (4930)	90 (23)	300 (2655)			1690 (245)	7 (2)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 32
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
432-8564	Pump Rotation: CW
	1	1000	0	95 (25)				1000 (145)
	2	2000	0	190 (50)				1000 (145)
	3	2000	10000 (1450)	95 (25)		7700 (1115)	2300 (335)	1000 (145)
	4	2000	12000 (1740)	150 (40)	164 (1450)			1000 (145)
	5	2000	22000 (3190)	80 (21)	164 (1450)			1000 (145)
	6	2000	31000 (4495)	50 (13)	164 (1450)			1000 (145)	4 (1)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 33
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
432-8565	Pump Rotation: CW
	1	1000	0	130 (34)				1680 (245)
	2	2000	0	260 (68)				1680 (245)
	3	2000	10000 (1450)	130 (34)		7700 (1115)	2300 (335)	1680 (245)
	4	2000	17000 (2470)	190 (50)	300 (2650)			1680 (245)
	5	2000	25000 (3625)	130 (34)	300 (2650)			1680 (245)
	6	2000	33000 (4785)	90 (23)	300 (2650)			1680 (245)	7(2)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 34
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
432-8567	Pump Rotation: CW
	1	1000	0	145 (38)				1350 (195)
	2	2000	0	290 (76)				1350 (195)
	3	2000	10000 (1450)	145 (38)		7700 (1115)	2300 (335)	1350 (195)
	4	2000	13600 (1975)	200 (52)	283 (2505)			1350 (195)
	5	2000	22000 (3190)	120 (31)	283 (2505)			1350 (195)
	6	2000	30800 (4465)	80 (21)	283 (2505)			1350 (195)	6 (2)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 35
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
489-3973	Pump Rotation: CW
	1	1000	0	130 (34)				1690 (245)
	2	2000	0	260 (68)				1690 (245)
	3	2000	10000 (1450)	130 (34)		7900 (1145)	2100 (304)	1690 (245)
	4	2000	22000 (3190)	156 (41)	300 (2655)			1690 (245)
	5	2000	34000 (4930)	90 (23)	300 (2655)			1690 (245)
	6	2000	34000 (4930)	90 (23)	300 (2655)			1690 (245)	7 (2)
	7⁽³⁾	2000	38000 (5510)	10 (2)	300 (2655)			1690 (245)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.
⁽³⁾	This pump has a high-pressure relief valve. Follow Step 7 Specifications for testing.

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Table 36
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
499-2268	Pump Rotation: CW
	1	600	0	78 (20)				1690 (245)
	2	1200	0	156 (40)				1690 (245)
	3	1200	10000 (1450)	78 (20)		7900 (1145)	2100 (304)	1690 (245)
	4	1200	15200 (2204)	132 (35)	180 (1593)			1690 (245)
	5	1200	22000 (3190)	90 (24)	180 (1593)			1690 (245)
	6	1200	34000 (4931)	54 (14)	180 (1593)			1690 (245)	4 (1)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

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Table 37
Part Number	Step	Input Speed	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Input Torque Nm (lb in)	⁽¹⁾Signal Pressure kPa (psi)	⁽²⁾Margin Pressure kPa (psi)	Powershift Pressure kPa (psi)	Max Case Drain Flow lpm (gpm)
505-5268	Pump Rotation: CW
	1	600	0	151 (40)				1690 (245)
	2	1200	0	302 (80)				1690 (245)
	3	1200	10000 (1450)	151 (40)		7900 (1145)	2100 (304)	1690 (245)
	4	1200	15200 (2204)	132 (35)	180 (1593)			1690 (245)
	5	1200	22000 (3190)	90 (24)	180 (1593)			1690 (245)
	6	1200	34000 (4931)	54 (14)	180 (1593)			1690 (245)	4 (1)

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⁽¹⁾	Not a spec. For reference only.
⁽²⁾	Margin pressure = pump discharge pressure minus signal pressure.

Test Bench Tooling

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Table 38
Tooling
Part Number	Adapter Plate	Drive Adapter	Suction Adapter	Split Flange	Flange Adapter	Pilot Pressure Port	Case Drain Port
111-3727	4C-4622	1U-6433	1U-9866	1P-5766	9U-7439	9/16-18 STOR	1 1/16-12 STOR
128-4326	1U-9129	1U-6433	1U-9867	5P-8077	9U-7441	9/16-18 STOR	1 5/16-12 STOR
130-2447	4C-4622	1U-6433	1U-9866	1P-5766	9U-7439	9/16-18 STOR	1 1/16-12 STOR
130-7673	4C-4622	1U-9866	1U-9866	1P-5766	9U-7439	9/16-18 STOR	1 1/16-12 STOR
153-8179	1U-9129	1U-9866	1U-9868	5P-8077	9U-7446	9/16-18 STOR	1 5/16-12 STOR
190-8198	4C-4622	1U-6433	1U-9866	1P-5766	9U-7439	9/16-18 STOR	1 1/16-12 STOR
190-8212	4C-4622	1U-6433	1U-9866	1P-5766	9U-7439	9/16-18 STOR	1 1/16-12 STOR
197-9994	1U-9129	1U-6433	1U-9867	5P-8077	9U-7441	9/16-18 STOR	1 5/16-12 STOR
207-4707	4C-4622	1U-6433	1U-9866	1P-5766	9U-7439	9/16-18 STOR	1 1/16-12 STOR
207-4709	4C-4622	9U-5277	1U-9866	1P-5766	9U-7439	9/16-18 STOR	1 1/16-12 STOR
240-0143	1U-9129	1U-6433	1U-9867	5P-8077	9U-7441	9/16-18 STOR	1 5/16-12 STOR
240-0145	4C-4622	1U-6433	1U-9866	1P-5766	9U-7439	9/16-18 STOR	1 1/16-12 STOR
240-0147	4C-4622	1U-6433	1U-9866	1P-5766	9U-7439	9/16-18 STOR	1 1/16-12 STOR
240-0149	4C-4622	1U-6433	1U-9866	1P-5766	9U-7439	9/16-18 STOR	1 1/16-12 STOR
240-0151	4C-4622	9U-5277	1U-9866	1P-5766	9U-7439	9/16-18 STOR	1 1/16-12 STOR
251-8028	4C-4622	9U-5277	1U-9866	5P-8077	9U-7441	9/16-18 STOR	1 1/16-12 STOR
251-8029	Tandem pump consisting of 251-8028 (see this document) and 207-4710 (see REHS2642)
251-8030	4C-4622	1U-6433	1U-9866	5P-8077	9U-7441	9/16-18 STOR	1 1/16-12 STOR
251-8032	4C-4622	1U-6433	1U-9866	5P-8077	9U-7441	9/16-18 STOR	1 1/16-12 STOR
251-8033	Tandem pump consisting of 251-8032 (see this document) and 190-8213 (see REHS2642)
251-8034	4C-4622	1U-6433	1U-9866	1P-5766	9U-7439	9/16-18 STOR	1 1/16-12 STOR
251-8035	Tandem pump consisting of 251-8034 (see this document) and 190-8199 (see REHS2642)
251-8036	1U-9129	1U-6433	1U-9867	1P-5766	9U-7439	9/16-18 STOR	1 5/16-12 STOR
251-8037	Tandem pump consisting of 251-8036 (see this document) and 196-8429 (see REHS2642)
340-3402	4C-4622	1U-6433	1U-9866	5P-8077	9U-7441	9/16-18 STOR	1 1/16-12 STOR
340-3403	Tandem pump consisting of 340-3402 (see this document) and 382-6573 (see REHS2642)
423-2541	4C-4622	9U-5277	1U-9866	6V-0400	9U-7439	9/16-18 STOR	1 1/16-12 STOR
423-2542	4C-4622	1U-6433	1U-9866	1P-5766	9U-7439	9/16-18 STOR	1 1/16-12 STOR
432-8564	4C-4622	9U-5277	1U-9866	6V-0400	9U-7439	9/16-18 STOR	1 1/16-12 STOR
432-8565	4C-4622	1U-6433	1U-9866	6V-0400	9U-7439	9/16-18 STOR	1 1/16-12 STOR
432-8567	4C-4622	1U-6433	1U-9866	1P-5766	9U-7439	9/16-18 STOR	1 1/16-12 STOR
489-3973	1U-9129	1U-6433	1U-9866	124-4288	9U-7439	9/16-18 STOR	1 1/16-12 STOR
499-2268	4C-4622	1U-6433	1U-9866	6V-0400	9U-7439	9/16-18 STOR	1 1/16-12 STOR
505-5268	4C-4622	1U-6433	1U-9866	6V-0400	9U-7439	9/16-18 STOR	1 1/16-12 STOR