Bench Test Procedure for Hydraulic Piston Pumps{0599, 5070, 5070} Caterpillar

Bench Test Procedure for Hydraulic Piston Pumps{0599, 5070, 5070}

Usage:

120G 11W

Agricultural Tractor:: 65 DD/PS MTS (S/N: 7YC1-UP); 65B DD/PS MTS (S/N: 7YC1-UP); 65C DD/PS MTS (S/N: 2ZJ1-UP); 70C (S/N: 2YL1-UP); 75 DD/PS MTS (S/N: 4CJ1-UP); 75C DD/PS MTS (S/N: 4KK1-UP); 75D DD/PS MTS (S/N: 5AR1-UP); 85C (S/N: 9TK1-UP); 85D DS DD/PS MTS (S/N: 4GR1-UP); DV87 (S/N: 9AM1-UP)
Articulated Truck:: D20D PS (S/N: 9MG1-UP); D250E (S/N: 5TN1-UP); D300D PS (S/N: 5MG1-UP); D300E (S/N: 7FN1-UP)
Asphalt Paver:: AP-1000 L/F (S/N: 1HD1-UP); AP-1000B (S/N: 7HN1-UP; AGP1-UP); AP-1050B (S/N: 6ZN1-UP); AP-1055B (S/N: ABB1-UP; 8BM1-UP); AP-900B (S/N: AGJ1-UP); AP1055B (S/N: AGB1-UP); BG-240C (S/N: AGL1-UP); BG-2455C (S/N: ACM1-UP; 6TN1-UP); BG-245C (S/N: 4XN1-UP); BG-260C (S/N: BYG1-UP; 8GN1-UP)
Backhoe Loader:: 416 Series II (S/N: 5PC1-UP); 426 Series II (S/N: 7BC1-UP); 428 Series II (S/N: 6TC1-UP); 436 Series II (S/N: 5KF1-UP); 436C (S/N: 8TN1-UP; 9JN1-UP); 438 Series II (S/N: 3DJ1-UP); 446 PS (S/N: 6XF1-UP); 446B PS (S/N: 5BL1-UP)
Cold Planer:: PM-565 TT CP (S/N: 3TK1-UP)
Excavator:: 5110 (S/N: 7GN1-UP; 8HN1-UP); 5110B (S/N: AAA1-UP); 5110B L (S/N: AAK1-UP); 5110B MH (S/N: AAT1-UP); 5130 (S/N: 5ZL1-UP); 5230 (S/N: 7LL1-UP)
Integrated Toolcarrier:: IT18F (S/N: 6ZF1-UP; 5EJ1-UP); IT24F (S/N: 4NN1-UP; 6KN1-UP); IT28F (S/N: 3CL1-UP); IT28G (S/N: WAC1-UP; EWF1-UP; 8CR1-UP; 9AR1-UP; DBT1-UP); IT38F (S/N: 5DR1-UP); IT38G Series II (S/N: JAN1-UP; CSX1-UP); IT38G (S/N: 7BS1-UP; 1CW1-UP)
Motor Grader:: 120G (S/N: 4HD1-UP; 87V1-UP; 11W1-UP); 120H (S/N: 4MK1-UP; 5FM1-UP; 6TM1-UP; 2AN1-UP; 6YN1-UP; 9YR1-UP); 120K Series 2 (S/N: SZS1-UP; SZZ1-UP); 120K (S/N: SZN1-UP; JAP1-UP); 12G PS (S/N: 3WC1-UP); 12G (S/N: 3PL1-UP); 12G PS (S/N: 61M1-UP); 12H (S/N: XZJ1-UP; 4XM1-UP; 5ZM1-UP; 8MN1-UP; 2LR1-UP; 2WR1-UP; 4ER1-UP; 2GS1-UP); 12K (S/N: JJA1-UP; SZP1-UP); 130G (S/N: 74V1-UP; 12W1-UP); 135H (S/N: BDJ1-UP; 3YK1-UP; 8WN1-UP); 140G (S/N: 5MD1-UP; 72V1-UP; 13W1-UP); 140H (S/N: XZH1-UP; 2ZK1-UP; 5HM1-UP; 8JM1-UP; 8KM1-UP; 9TN1-UP; 9ZN1-UP; 3AS1-UP); 140K (S/N: JPA1-UP; SZL1-UP); 143H (S/N: 1AL1-UP); 14G (S/N: 96U1-UP); 14H (S/N: 7WJ1-UP); 160G (S/N: 4JD1-UP); 160H (S/N: 9EJ1-UP; XZK1-UP; 2FM1-UP; 3GM1-UP; 6WM1-UP; 9JM1-UP; 2HS1-UP); 160K (S/N: SZM1-UP; JBP1-UP); 163H (S/N: 5AK1-UP); 16G (S/N: 93U1-UP); 16H (S/N: 6ZJ1-UP)
Multi Terrain Loader:: 277C (S/N: KCC1-UP)
Track-Type Skidder:: D4 TSKH Series II (S/N: 8ZF1-UP); D4 TSKH Series III PS (S/N: 7PK1-UP)
Track-Type Tractor:: D4H Series II PS (S/N: 8PB1-UP); D4H Series II PS LGP (S/N: 9DB1-UP); D4H Series II DD (S/N: 2AC1-UP); D4H Series II DD LGP (S/N: 3AC1-UP); D4H Series III PS XL (S/N: 8PJ1-UP); D4H Series III PS LGP (S/N: 9GJ1-UP); D4H Series III DD LGP (S/N: 4NK1-UP); D5M (S/N: 6GN1-UP; 3CR1-UP; 3DR1-UP; 4BR1-UP; 7LR1-UP; 4JS1-UP; 5ES1-UP; 5FS1-UP; 6AS1-UP); D6 PS LGP (S/N: 4LG1-UP); D6H Series II PS (S/N: 4RC1-UP); D6H Series II PS LGP (S/N: 6FC1-UP; 2TG1-UP); D6H Series II PS (S/N: 4LG1-UP); D6H Series II DD (S/N: 1FJ1-UP); D6H DD (S/N: 8KB1-UP); D8L SA DD/PS (S/N: 4FB1-UP); D8L PS (S/N: 7YB1-UP; 53Y1-UP); D9N (S/N: 1JD1-UP)
Wheel Loader:: 918F (S/N: 3TJ1-UP; 2CK1-UP; 5DL1-UP); 924F (S/N: 4YN1-UP; 5NN1-UP; 6MN1-UP; 7PN1-UP); 928F (S/N: 8AK1-UP; 2XL1-UP; 7YM1-UP); 928G (S/N: DJD1-UP; WLG1-UP; 6XR1-UP; 7SR1-UP); 928H (S/N: RSB1-UP); 928HZ (S/N: BYD1-UP; CXK1-UP); 938F (S/N: 1KM1-UP; 2RM1-UP; 8SM1-UP; 7SN1-UP); 938G Series II (S/N: RTB1-UP; CRD1-UP; PHN1-UP; B9Y1-UP); 938G (S/N: 6WS1-UP; 8RS1-UP; 9HS1-UP); 950F Series II (S/N: 8TK1-UP); 950F (S/N: 6YG1-UP); 950G (S/N: 2JS1-UP; 5FW1-UP); 960F (S/N: 4CL1-UP); 962G (S/N: BDP1-UP; 3BS1-UP; 7BW1-UP); 966F Series II (S/N: 9YJ1-UP); 966F (S/N: 3XJ1-UP); 966G (S/N: 9RS1-UP; 3PW1-UP); 970F (S/N: 9JK1-UP); 972G (S/N: 1EW1-UP; 6AW1-UP)
Wheel Skidder:: 508 (S/N: 9NC1-UP; 2HD1-UP)
Wheel Tractor-Scraper:: 615 (S/N: 46Z1-UP)

Introduction

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Table 1
Revision	Summary of Changes in REHS9368
00	New document.

© 2014 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 Service Tool Division. 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 questions or additional information concerning this guideline, submit a feedback form in the Service Information System web site. In order to address an urgent need, please use the following to relay your request to Caterpillar Repair Process Engineering:

Cat dealer Technical Communicator
Dealer Solution Network
Caterpillar Technical Representative
Knowledge Network (online)

Canceled Part Numbers and Replaced Part Numbers

This document may not include all 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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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.

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

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) in order 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	g01037439
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	g01037451
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	g01063315
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 (33) Auxiliary pump oil supply (34) "Flow meter 1" outlet (35) "Flow meter 1" inlet

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Illustration 6	g01046207
Control and Gauges for the Test Bench (36) Auxiliary pump pressure (37) Signal pressure (38) Control for signal pressure (39) "Flow meter 1" discharge pressure (40) Control for auxiliary pump pressure (41) "Flow meter 2" discharge pressure (42) Auxiliary pump flow 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

Pump Illustrations

This type of pump is manufactured in several different configurations shown in Illustrations 7, 8, and 9. Although the configurations differ in appearance, they will be tested the same.

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Illustration 7	g01272852
Port locations for pump configurations with side mounted control and side-facing suction and discharge ports (49) Suction port (50) Discharge port (51) Case drain port (52) Pressure port for load sensing (53) Adjustment screw for high pressure cut (54) Adjustment screw for margin pressure

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Illustration 8	g01272860
Port locations for pump configurations with rear mounted control and side-facing suction and discharge ports. (49) Suction port (50) Discharge port (51) Case drain port (52) Pressure port for load sensing (53) Adjustment screw for high pressure cut (54) Adjustment screw for margin pressure

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Illustration 9	g01272858
Port locations for pump configurations with rear mounted control and rear-facing suction and discharge ports. (49) Suction port (50) Discharge port (51) Case drain port (52) Pressure port for load sensing (53) Adjustment screw for high pressure cut (54) Adjustment screw for margin pressure

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Illustration 10	g01263516
Hydraulic schematic (49) Suction port (50) Discharge port (51) Case drain port (52) Pressure port for load sensing (53) Adjustment screw for high pressure cut (54) Adjustment screw for margin pressure

4C-3582 Load Sensing Valve

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Illustration 11	g01272623
4C-3582 Load Sensing Valve

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Illustration 12	g01272625
4C-3582 Load Sensing Valve

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Illustration 13	g01272628
Schematic for 4C-3582 Load Sensing Valve

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Illustration 14	g01049615
4C-3582 Load Sensing Valve and 1U-5796 Pressure Differential Gauge (56) Outlet port (57) Adjustment for the discharge flow (58) Inlet port (59) High-pressure valve port (60) Adjustment for the discharge pressure (61) Low-pressure valve port (62) Pressure port for load sensing (63) Pressure differential gauge group (64) Low-pressure gauge port (65) High-pressure gauge port

Connect a 1 inch high pressure "XT6" hose from the pump discharge port to inlet port (59) on the 4C-3582 Load Sensing Valve .

Connect a 1 inch high pressure "XT6" hose from outlet port (56) 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 (62) on the 4C-3582 Load Sensing Valve to the pressure port for load sensing (51) on the pump.
Note: Do not use 1U-5754 Hose Assembly or 1U-5755 Hose Assembly for load 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 (63) to the high-pressure port (58) and low-pressure port (61) on the 4C-3582 Load Sensing Valve . The port marked "hi" (65) on the 1U-5796 Pressure Differential Gauge Group should be hooked up to the port marked "hi" (58) on the 4C-3582 Load Sensing Valve . The port marked "low" (64) on the 1U-5796 Pressure Differential Gauge Group should be hooked up to the port marked "low" (61) on the 4C-3582 Load Sensing Valve .
Note: The ports marked "low" (61) and "sense line" (62) on the 4C-3582 Load Sensing Valve are reading the same pressure.

Pump Setup

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.

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 the pump for proper rotation.

Test Procedure

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

The hydraulic oil in the test bench should meet an ISO rating of 16/13. 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	g01054155

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. Verify that all connections are not leaking.

Slowly increase the input RPM to the value in Step 2 of the test specifications. If the actual flow is less than the value given in Step 2 of the test specifications, the pump may not be mechanically feasible. The pump should be internally inspected.

Slowly adjust discharge flow to the value in step 3 of the test specifications. The discharge flow is adjusted by using the 4C-3582 Load Sensing Valve's Adjustment knob for discharge flow (57). Bench circuitry will be used to limit flow when using a 1U-9400 Test Center . Adjust the discharge pressure according to the values in Step 3 of the test specifications. Adjust the screw for margin pressure (54) to the value in Step 3 of the test specifications. The margin pressure will be displayed on the 1U-5796 Pressure Differential Gauge (63).
Note: The margin pressure may change as discharge pressure changes. Adjust margin pressure at Step 3 within operating conditions only.
Note: In order to adjust the screw for margin pressure (54), remove the external hexagon screw first.
Slowly adjust the discharge flow back to full flow. Use the Adjustment knob for discharge flow (57) on the Load Sensing Valve.

Slowly adjust the input RPM to the value in Step 4. Increase the pump discharge pressure to the value in Step 4 of the test specifications. Compare the actual values of the case drain (51) with the values in Step 4 of the test specifications. This value is an indication of the efficiency. If the case drain is more than the value in Step 4 of the test specifications, the pump may not be mechanically feasible. The pump should be internally inspected.

Increase the pump discharge pressure to the value in Step 5 of the test specifications. Turn the adjustment screw for the high pressure cut (53) until the actual high-pressure cut value is equal to the value in Step 5 of the test specifications. The discharge flow should be zero when the high-pressure cut is reached.

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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 of the ports.

Test Specifications

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Table 3
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
1G-7854	CW	1	700	0	30 (8)
		2	2400	0	110 (29)
		3	2400	11400 (1653)	52 (14)		2400±100 (350±15)
		4	1500	18000±315 (2610±46)	68 (18)	6 (1.6)
		5	1500	20000±350 (2900±51)	0

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Table 4
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
4T-0501	CCW	1	700	0	52 (14)
		2	2200	0	148 (39)
		3	2200	15000 (2176)	80 (21)		2100±100 (305±15)
		4	1500	21600±315 (3133± 46)	111 (29)	3 (0.8)
		5	1500	24000±350 (3450±51)	0

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Table 5
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
4T-1029	CW	1	700	0	30 (8)
		2	1900	0	83 (22)
		3	1900	11400 (1653)	41 (10)		1380±100 (200±15)
		4	1500	15840± 315 (2297±46)	65 (17)	5 (1.4)
		5	1500	17600± 350 (2552±51)	0

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Table 6
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
4T-5056	CW	1	700	0	29
		2	2525	0	105
		3	2525	15000	49		1725 ± 170
		4	1500	17370 ± 315	62	5 (1.4)
		5	1500	19300 ± 350	0

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Table 7
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
4T-6895	Canceled, replaced by 9T-6857

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Table 8
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
4T-6962	CCW	1	700	0	40 (11)
		2	2400	0	137 (36)
		3	2400	15000 (2176)	70 (18)		2070±100 (300±15)
		4	1500	17100±315 (2480±46)	86 (23)	5.7 (1.5)
		5	1500	19000±350 (2756±51)	0

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Table 9
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
6E-0356	CCW	1	700	0	29 (7.6)
		2	2400	0	100 (26)
		3	2400	15000 (2175)	49± 4 (7.1)		1700±170 (246±24.6)
		4	1500	1550 (2284)	62 (16.5)	7.6 (2)
		5	1500	17500±350 (2538±51)	0

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Table 10
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
6E-1278	CCW	1	700	0	52 (14)
		2	2200	0	163 (43)
		3	2200	15000 (2176)	80 (21)		2100±100 (305±15)
		4	1500	21600±315 (3133±46)	111 (29)	3 (0.8)
		5	1500	24000±350 (3450±51)	0

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Table 11
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
6E-1279	CCW	1	700	0	69 (18)
		2	2000	0	196 (52)
		3	2000	15000 (2176)	105 (28)		2100±100 (305±15)
		4	1500	21600±315 (3133±46)	147 (39)	9.8 (2.6)
		5	1500	24000±350 (3450±51)	0

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Table 12
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
6E-2388	CW	1	700	0	69 (18)
		2	2100	0	206 (54)
		3	2100	15000 (2176)	105 ±10 (28±3)		2100±100 (305±15)
		4	1500	18000±315 (2611±46)	147 (39)	9.8 (2.6)
		5	1500	20000±350 (2900±51)	0

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Table 13
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
6E-5477	CCW	1	700	0	30 (8)
		2	2400	0	110 (29)
		3	2400	11400 (1653)	53 (14)		2800±100 (406±15)
		4	1500	15840± 315 (2297±46)	68 (18)	5 (1.4)
		5	1500	17600± 350 (2552±51)	0

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Table 14
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
6E-5965	CCW	1	700	0	30 (8)
		2	2400	0	110 (29)
		3	2400	15000 (2175)	53 (14)		1720±100 (250±15)
		4	1500	18630±315 (2702±46)	68 (18)	6 (1.6)
		5	1500	20700±350 (3000±51)	0

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Table 15
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
6E-6272	CCW	1	700	0	32 (8)
		2	2400	0	108 (29)
		3	2400	15000 (2176)	53 (14)		1720±100 (250±15)
		4	1500	18630±315 (2702±46)	68 (18)	6 (1.5)
		5	1500	20700±350 (3002±51)	0

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Table 16
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
6E-6472	CCW	1	700	0	30 (8)
		2	2400	0	106 (28)
		3	2400	11400 (1653)	52 (14)		3600±100 (405±15)
		4	1500	17730±315 (2571±46)	66 (18)	6 (1.5)
		5	1500	19700±350 (2857±51)	0

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Table 17
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
7U-6875	CCW	1	700	0	30 (8)
		2	2400	0	98 (26)
		3	2400	13300 (1929)	48 (12)		3000±150 (435±22)
		4	1500	19845±315 (2878±46)	60 (16)	5 (1.4)
		5	1500	22050±350 (3198±51)	0

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Table 18
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
7U-7306	CCW	1	700	0	29 (8)
		2	2400	0	99 (26)
		3	2400	13300 (1929)	48 (13)		3000±150 (435±22)
		4	1500	19845±315 (2878±46)	62 (16)	5 (1.4)
		5	1500	22050±350 (3198±51)	0

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Table 19
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
7U-7307	CCW	1	700	0	30 (8)
		2	2400	0	98 (26)
		3	2400	13300 (1929)	48 (12)		2480±150 (360±22)
		4	1500	12402±315 (1798±46)	60 (16)	5 (1.4)
		5	1500	13780±350 (1998±51)	0

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Table 20
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
7U-7358	CCW	1	700	0	30 (8)
		2	2400	0	98 (26)
		3	2400	13300 (1929)	48 (13)		3000±150 (435±22)
		4	1500	19845±315 (2878±46)	60 (16)	6 (1.7)
		5	1500	22050± 350 (3198±51)	0

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Table 21
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
9T-0290	CCW	1	700	0	30 (8)
		2	2400	0	110 (29)
		3	2400	11400 (1653)	53 (14)		1380±100 (200±15)
		4	1500	16740±315 (2428±46)	68 (18)	6 (1.6)
		5	1500	18600±350 (2697±51)	0

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Table 22
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
9T-1211	Tandem pump. For piston pump (front section) specifications, refer to 9T-2108 in this document. Gear pump (rear section) flow is 34 L/min (9 US gpm) with 690 kPa (100 psi) of discharge pressure at 2200 RPM. Refer to REHS1832 for the gear pump bench test procedure.

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Table 23
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
9T-1413	CCW	1	700	0	32 (8)
		2	2400	0	108 (29)
		3	2400	10500 (1523)	54 (15)		1700±350 (247±51)
		4	1500	15840±315 (2297±46)	68 (18)	6 (1.5)
		5	1500	17600±350 (2553±51)	0

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Table 24
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
9T-1417	CCW	1	700	0	69 (18)
		2	2200	0	216 (57)
		3	2200	15000 (2176)	105 (28)		2100±100 (305±15)
		4	1500	21600±315 (3133±46)	147 (39)	9.8 (2.6)
		5	1500	24000±350 (3480±51)	0

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Table 25
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
9T-2108	CCW	1	700	0	52 (14)
		2	2200	0	163 (43)
		3	2200	15000 (2176)	80 (21)		2100±100 (305±15)
		4	1500	18000±315 (2611±46)	111 (29)	3 (0.8)
		5	1500	20000±350 (2901±51)	0

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Table 26
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
9T-4699	Canceled, replaced by 117-7760. Refer to REHS 2078 for PVH Testing Procedure.

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Table 27
P/N	Pump Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
9T-4833	CCW	1	700	0	40 (11)
		2	2400	0	137 (36)
		3	2400	15000 (2176)	70 (18)		2070±100 (300±15)
		4	1500	17100±315 (2480±46)	86 (23)	6 (57)
		5	1500	19000±350 (2756±51)	0

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Table 28
P/N	Pump Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
9T-5456	CCW	1	700	0	92 (24)
		2	2000	0	262 (69)
		3	2000	15000 (2176)	130 (34)		2100±100 (305±15)
		4	1500	21600±315 (3133±46)	197 (52)	15.7 (4.1)
		5	1500	24000±350 (3481±51)	0

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Table 29
P/N	Pump Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
9T-5611	Tandem pump. For piston pump (front section) specifications, refer to 9T-5456 in this document. Gear pump (rear section) flow is 25.5 L/min (7 US gpm) with 690 kPa (100 psi) of discharge pressure at 2200 RPM. Refer to REHS1832 for the gear pump bench test procedure.

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Table 30
P/N	Pump Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
9T-6436	Tandem pump. For piston pump (front section) specifications, refer to 9T-6691 in this document. Gear pump (rear section) flow is 25.5 L/min (7 US gpm) with 690 kPa (100 psi) of discharge pressure at 2200 RPM. Refer to REHS1832 for the gear pump bench test procedure.

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Table 31
P/N	Pump Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
9T-6519	CW	1	700	0	69 (18)
		2	2100	0	206 (54)
		3	2100	15000 (2176)	105 (28)		2100±100 (305±15)
		4	1500	18000±315 (2611±46)	147 (39)	9.8 (2.6)
		5	1500	20000±350 (2901±51)	0

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Table 32
P/N	Pump Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
9T-6691	CCW	1	700	0	69 (18)
		2	2000	0	196 (52)
		3	2000	15000 (2176)	105 (28)		2100±100 (305±15)
		4	1500	21600±315 (3133±46)	147 (39)	9.8 (2.6)
		5	1500	24000±350 (3481±51)	0

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Table 33
P/N	Pump Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
9T-6857	CCW	1	700	0	30 (8)
		2	2400	0	110 (29)
		3	2400	11400 (1653)	53 (14)		1380±100 (200±15)
		4	1500	17100±315 (2480±46)	68 (18)	6 (1.5)
		5	1500	19000±350 (2756±51)	0

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Table 34
P/N	Pump Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
9T-7157	CCW	1	700	0	30 (8)
		2	2400	0	106 (28)
		3	2400	11400 (1653)	52 (14)		3600±100 (522±15)
		4	1500	17730±315 (2571±46)	66 (17)	6 (1.5)
		5	1500	19700±350 (2857±51)	0

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Table 35
P/N	Pump Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
9T-7158	Tandem pump. For piston pump (front section) specifications, refer to 130-6238 in this document. Vane pump (center section) flow @ 2400 is 132 L/min (34 US gpm). Refer to REHS1833 for the vane pump bench test procedure. Gear pump (rear section) flow is 28 L/min (7 US gpm) with 7000 kPa (1015 psi) of discharge pressure. Refer to REHS1832 for the gear pump bench test procedure.

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Table 36
P/N	Pump Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
9T-7178	Tandem pump. For piston pump (front section) specifications, refer to 130-6226 in this document. Vane pump (center section) flow @ 2400 is 151 L/min (40 US gpm). Refer to REHS1833 for the vane pump bench test procedure. Gear pump (rear section) flow is 28 L/min (7 US gpm) with 7000 kPa (1015 psi) of discharge pressure. Refer to REHS1832 for the gear pump bench test procedure.

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Table 37
P/N	Pump Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
9T-7179	Tandem pump. For piston pump (front section) specifications, refer to 130-6238 in this document. Vane pump (center section) flow @ 2400 is 151 L/min (40 US gpm). Refer to REHS1833 for the vane pump bench test procedure. Gear pump (rear section) flow is 28 L/min (7 US gpm) with 7000 kPa (1015 psi) of discharge pressure. Refer to REHS1832 for the gear pump bench test procedure.

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Table 38
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
100-5418	Canceled, replaced by 130-6238

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Table 39
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
103-6079	Tandem pump. For piston pump (front section) specifications, refer to 130-6225 in this document. Vane pump (center section) flow @ 2400 RPM is 104 L/min (27 US gpm). Refer to REHS1833 for the vane pump bench test procedure. Gear pump (rear section) flow is 28 L/min (7 US gpm) with 7000 kPa (1015 psi) of discharge pressure. Refer to REHS1832 for the gear pump bench test procedure.

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Table 40
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
105-2140	Tandem pump. For piston pump (front section) specifications, refer to 107-9532 in this document. Vane pump (center section) flow @ 2596 RPM is 163 L/min (43 US gpm) Refer to REHS1833 for vane pump bench test procedure. Gear pump (rear section) flow is 22 L/min (6 US gpm) with 7000 kPa (1015 psi)of discharge pressure. Refer to REHS1832 for the gear pump bench test procedure.

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Table 41
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
107-9532	CCW	1	700	0	23 (6)
		2	2596	0	106 (28)
		3	2100	11400 (1653)	41 (11)		2500±100 (362±15)
		4	1500	20520±315 (2975±46)	60 (16)	5 (1.4)
		5	1500	22800±350 (3306±50)	0

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Table 42
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
114-3091	Tandem pump. For piston pump (front section) specifications, refer to 130-6225 in this document. Vane pump (center section) flow @ 2400 RPM is 151 L/min (39 US gpm). Refer to REHS1833 for the vane pump bench test procedure. Gear pump (rear section) flow is 28 L/min (7 US gpm) with 7000 kPa (1015 psi) of discharge pressure. Refer to REHS1832 for the gear pump bench test procedure.

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Table 43
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
118-1143	CCW	1	700	0	30 (8)
		2	2400	0	98 (26)
		3	2400	13300 (1929)	48 (12)		1400±100 (203±15)
		4	1500	18900±315 (2741±46)	60 (16)	5 (1.4)
		5	1500	21000±350 (3045±51)	0

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Table 44
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
118-2458	CW	1	700	0	19 (5)
		2	2200	0	52 (14)
		3	2200	4500 (650)	26 (7)		1100±100 (160±15)
		4	1500	8100±315 (1175±46)	38 (10)	2 (0.6)
		5	1500	9000±350 (1305±51)	0

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Table 45
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
119-7698	Tandem pump. For piston pump (front section) specifications, refer to 120-0140 in this document. Vane pump (rear section) flow @ 2400 RPM is 151 L/min (39 US gpm). Refer to REHS1833 for the vane pump bench test procedure.

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Table 46
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
120-0140	CCW	1	700	0	30 (8)
		2	2400	0	110 (29)
		3	2400	11400 (1653)	52 (14)		3850±100 (558±15)
		4	2100	18630±315 (2702±46)	94 (25)	6 (1.5)
		5	2100	20700±350 (3000±51)	0

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Table 47
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
121-6016	CCW	1	700	0	19 (5)
		2	2200	0	52 (14)
		3	2200	4500 (652)	26 (7)		1100±100 (160±15)
		4	1500	7470± 315 (1083±46)	38 (10)	2 (0.6)
		5	1500	8300± 350 (1203±51)	0

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Table 48
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
126-0980	CCW	1	700	0	30 (8)
		2	2400	0	110 (29)
		3	2400	11400 (2480)	53 (14)		2800±100 (406±15)
		4	1500	17100±315 (1900±45)	69 (18)	6 (1.6)
		5	1500	19000±350 (2756±50)	0

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Table 49
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
130-6225	CCW	1	700	0	30 (8)
		2	2400	0	106 (28)
		3	2400	11400 (1653)	51 (13)		3600±100 (522±15)
		4	1500	17730±315 (2572±45)	68 (18)	6 (1.5)
		5	1500	19700±350 (2857±50)	0

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Table 50
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
130-6226	CCW	1	700	0	30 (8)
		2	2400	0	106 (28)
		3	2400	11400 (1653)	52 (14)		3600±100 (522±15)
		4	1500	17730±315 (2571±46)	68 (18)	6 (1.5)
		5	1500	19700±350 (2857±51)	0

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Table 51
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
130-6238	CCW	1	700	0	30 (8)
		2	2400	0	106 (28)
		3	2400	11400 (1653)	52 (14)		3600±100 (522±15)
		4	1500	18630±350 (2702±51)	65 (17)	6 (1.5)
		5	1500	20700±350 (3002±51)	0

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Table 52
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
141-7450	CCW	1	700	0	30 (8)
		2	1950	0	80 (21)
		3	1950	7500 (1087)	39 (10)		2400±100 (350±15)
		4	1500	13680±315 (1984±46)	60 (16)	5 (1.5)
		5	1500	15200±350 (2204±51)	0

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Table 53
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
160-5113	CCW	1	700	0	30 (8)
		2	2400	0	110 (29)
		3	2100	11400 (1653)	52 (14)		1724±138 (250±20)
		4	1500	17996±311 (2610±45)	68 (18)	6 (1.6)
		5	1500	19995±345 (2900±50)	0

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Table 54
P/N	Rotation	Step	RPM	Discharge Pressure kPa (psi)	Discharge Flow lpm (gpm)	Max. Case Drain Flow lpm (gpm)	Margin Pressure kPa (psi)
197-5326	CCW	1	700	0	30 (8)
		2	2400	0	110 (29)
		3	2100	11400 (1653)	52 (14)		1860±100 (270±15)
		4	1500	17100±315 (2480±46)	68 (18)	6 (1.6)
		5	1500	19000±350 (2756±51)	0

Bench Test Tooling

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Table 55
Tooling
Part Number	Adapter Plate	Drive Adapter	Suction Port	Pressure Port	Split Flange	Flange Adapter	Pilot Pressure Port	Case Drain Port
1G-7854	1U-9127	1U-9833	1-7/8-12 STOR	1-5/16-12 STOR			7/16-20 STOR	9/16-18 STOR
4T-0501	1U-9128	1U-9846	1U-9873		1P-4577	9U-7444	9/16-18 STOR	3/4-16 STOR
4T-1029	1U-9127	4C-4088	1-7/8-12 STOR	1-5/16-12 STOR			7/16-20 STOR	7/8-14 STOR
4T-5056	1U-9127	1U-9846	1U-9870		1P-4577	9U-7444	7/16-20 STOR	3/4-16 STOR
4T-6895	Canceled, replaced by 9T-6857
4T-6962	1U-9127	4C-4088	1U-9873		1P-4577	9U-7444	9/16-18 STOR	3/4-16 STOR
6E-0356	1U-9127	1U-9833	1U9870		1-5/16-12 STOR		7/16-20 STOR	3/4-16 STOR
6E-1278	1U-9128	1U-9848	1U-9873		1P-4577	9U7444	9/16-18 STOR	3/4-16 STOR
6E-1279	1U-9128	1U-9848	1U-9873		1P-4577	9U7444	9/16-18 STOR	3/4-16 STOR
6E-2388	1U-9128	1U-9834	1U-9874		1P-4577	9U-7444	9/16-18 STOR	7/8-14 STOR
6E-5477	1U-9127	4C-4088	1-7/8-12 STOR	1-5/16-12 STOR			7/16-20 STOR	7/8-14 STOR
6E-5965	1U-9127	4C-4385	1-7/8-12 STOR	1-5/16-12 STOR			7/16-20 STOR	7/8-14 STOR
6E-6272	1U-9127	4C-4385	1-7/8-12 STOR	1-5/16-12 STOR			7/16-20 STOR	7/8-14 STOR
6E-6472	1U-9127	4C-4088	1-5/16-12 STOR		1P-4577	9U-7444	7/16-20 STOR	7/8-14 STOR
7U-6875	1U-9127	4C-4088	1-7/8-12 STOR	1-3/16-12 STOR			7/16-20 STOR	7/8-14 STOR
7U-7306	1U-9127	4C-4088	1-7/8-12 STOR	1-3/16-12 STOR			7/16-20 STOR	7/8-14 STOR
7U-7307	1U-9127	4C-4088	1-7/8-12 STOR	1-3/16-12 STOR			7/16-20 STOR	7/8-14 STOR
7U-7358	1U-9127	4C-4088	1-7/8-12 STOR	1-3/16-12 STOR			7/16-20 STOR	7/8-14 STOR
9T-0290	1U-9127	4C-4385	1-7/8-12 STOR	1-5/16-12 STOR			7/16-20 STOR	7/8-14 STOR
9T-1211	Tandem Pump. Refer to 9T-2108
9T-1413	1U-9127	1U-9833	1-5/8-12 STOR	1-5/16-12 STOR			7/16-20 STOR	1-5/16-12 STOR
9T-1417	1U-9128	1U-9848	1U-9874		1P-4577	9U-7444	9/16-18 STOR	1-1/16-12 STOR
9T-2108	1U-9128	1U-9848	1U-9873		1P-4577	9U-7444	9/16-18 STOR	3/4-16 STOR
9T-4699	Canceled, replaced by 117-7760
9T-4833	1U-9127	4C-4088	1U-9873		1P-4577	9U-7444	9/16-18 STOR	3/4-16 STOR
9T-5456	1U-9128	136-3602	1U-9874		1P-4578	9U-7445	9/16-18	1-1/16-12 STOR
9T-5611	Tandem pump. Refer to 9T-5456
9T-6436	Tandem pump. Refer to 9T-6691
9T-6519	1U-9128	1U-9834	1U-9874		1P-4577	9U-7444	9/16-18 STOR	7/8-14 STOR
9T-6691	1U-9128	1U-9394	1U-9874		1P-4577	9U-7444	9/16-18 STOR	1-1/16-12 STOR
9T-6857	1U-9127	4C-4088	1-7/8-12 STOR	1-5/16-12 STOR			7/16-20 STOR	7/8-14 STOR
9T-7157	1U-9127	4C-4088	1U-9874		1P-4577	9U-7444	7/16-20 STOR	7/8-14 STOR
9T-7158	Tandem pump. Refer to 130-6238
9T-7178	Tandem pump. Refer to 130-6226
9T-7179	Tandem pump. Refer to 130-6238
100-5418	Canceled, replaced by 130-6238
103-6079	Tandem pump. Refer to 130-6225
105-2140	Tandem pump. Refer to 107-9532
107-9532	1U-9127	4C-4088	1U-9874		1P-4577	9U-7444	7/16-20 STOR	7/8-14 STOR
114-3091	Tandem pump. Refer to 103-6225
118-1143	1U-9127	4C-4088	1-7/8-12 STOR	1-5/16-12 STOR			7/16-20 STOR	7/8-14 STOR
118-2458	1U-9127	1U-9833	1-5/8-12 STOR	1-1/16-12 STOR			7/16-20 STOR	3/4-16 STOR
119-7698	Tandem pump. Refer to 120-0140
120-0140	1U-9127	4C-4088	1U-9874		1P-4577	9U-7444	7/16-20 STOR	7/8-14 STOR
121-6016	1U-9127	1U-9846	1-5/8-12 STOR	1-1/16-12 STOR			7/16-20 STOR	3/4-16 STOR
126-0980	1U-9127	4C-4088	1-7/8-12 STOR	1-5/16-12 STOR			7/16-20 STOR	7/8-14 STOR
130-6225	1U-9127	4C-4088	1U-9874		1P-4577	9U-7444	7/16-20 STOR	7/8-14 STOR
130-6226	1U-9127	4C-4088	1U-9874		1P-4577	9U-7444	7/16-20 STOR	7/8-14 STOR
130-6238	1U-9127	4C-4088	1U-9874		1P-4577	9U-7444	7/16-20 STOR	7/8-14 STOR
141-7450	1U-9127	4C-4088	1U-9867		1P-4577	9U-7444	7/16-20 STOR	7/8-14 STOR
160-5113	1U-9127	1U-9833	1-7/8-12 STOR	1-5/16-12 STOR			7/16-20 STOR	7/8-14 STOR
197-5326	1U-9127	1U-9846	1-7/8-12 STOR	1-5/16-12 STOR			7/16-20 STOR	7/8-14 STOR