4WE 10 U12-5X/EG24K4/M

Manufacturer: Bosch Rexroth

Material #: R901350512

Model : 4WE 10 U12-5X/EG24K4/M

***Disclaimer: The following summary contains information gathered from various sources such as product descriptions, technical specifications and catalogs. While efforts have been made to provide accurate details, inaccuracies may occur. It is advised to verify all information by contacting Bosch Rexroth directly.***
The Bosch Rexroth 4WE 10 U12-5X/EG24K4/M (R901350512) is a high-performance directional spool valve designed for controlling the start, stop, and direction of fluid flow within a hydraulic system. This model features a robust housing, one or two high-power electronic solenoids, a control spool, and return springs. The valve operates by shifting the control spool from its neutral position to an actuated position when the solenoid is energized, thereby allowing fluid to flow in the desired direction. This particular valve model includes manual override capabilities, which enable operators to manually shift the valve in cases where solenoid energization is not possible. The manual override is an essential feature for maintaining control during system troubleshooting or emergency situations. The 4WE 10 U12-5X/EG24K4/M valve can be fitted with a throttle insert—used to increase flow resistance in specific channels (P, A, B or T)—to enhance performance under varying operational conditions. It is designed without spring return in its default state but can be equipped with detent functionality (OF version), allowing the control spool to remain locked in position without continuous electric current, promoting energy-efficient operation. Safety and compatibility are addressed with CE conformity for electrical voltages greater than 50 VAC or 75 VDC and solenoid coil approval under UL recognition. Additionally, it has optional CSA C22.2 No. 0-M91 certification. This directional valve supports porting patterns according to ISO standards and offers flexibility with rotatable solenoids and various electrical connection options including individual or central connections. The Bosch Rexroth 4WE 10 U12-5X/EG24K4/M boasts a size of , component series X designation indicating its modern design criteria, with a maximum operating pressure of bar and maximum flow rate of l/min. These specifications ensure that this directional valve can handle demanding applications while delivering precise control over hydraulic flow within diverse systems.

$2,481.00 USD

More are expected on April 23, 2025

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Status: This product is temporarily out of stock.

Qty: Delivered as early as April 23, 2025 when ordered in

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4/3-, 4/2- or 3/2-way version Porting pattern according to ISO 4401-05-04-0-05 High-power solenoid, optionally rotatable by 90° Electrical connection as individual or central connection Use optionally with PWM connector (fast switching amplifier, energy reduction) Optional auxiliary operating device CE conformity according to the Low-Voltage Directive 2006/95/EC for electrical voltages >50 VAC or > 75VDC Solenoid coil with UR approval UL 429 Approval according to CSA C22.2 no. 139-10, optional

The directional valve type WE is a solenoid-actuated directional spool valve that can be used as electro-magnetic component. It controls the start, stop and direction of a flow.

The directional valve basically consists of housing (1), one or two electronic solenoids (2), control spool (3), and the return springs (4).

In the de-energized condition, the control spool (3) is held in the central position or in the initial position by the return springs (4) (except for version "O").

If the wet-pin electronic solenoid (2) is energized, the control spool (3) moves out of its rest position into the required end position. In this way, the required direction of flow according to the selected symbol is released.

After the electronic solenoid (2) has been switched off, the control spool (3) is pushed back into its central position or into its initial position (except for valves with "OF" detent and valves without type "O" spring).

A manual override (6) allows for the manual switching of the valve without solenoid energization.

To ensure proper functioning, make sure that the pressure chamber of the solenoid is filled with oil.

For more functions, refer to the functional description.

Type .WE 10 E…

Throttle insert "B.."

Using a throttle insert (7) in channels P, A, B or T, the flow resistance at the valve can be increased. Its use is required when, due to prevailing operating conditions, flows occur during the switching processes, which exceed the performance limit of the valve.

Without spring return “O” (only possible with symbols A, C and D)

This version is a directional valve with 2 spool positions and 2 electronic solenoids without detent. The valve without spring return at the control spool (3) does not have a defined basic position in the de-energized condition.

Without spring return with detent “OF” (only possible with symbols A, C and D)

This version is a directional valve with 2 spool positions and 2 electronic solenoids with detent. The detents are used to lock the control spool (3) in the relevant spool position. During operation, continuous application of current to the electronic solenoid can thus be omitted which contributes to energy-efficient operation.

Notice!

Pressure peaks in the tank line to two or several valves can result in unwanted movements of the control spool in the case of valves with detent! We therefore recommend that separate return lines be provided or a check valve installed in the tank line.

Type .WE 10 ../OF…

01	02	03	04	05		06	07	08	09	10	11		12	13	14	15	16	17
	WE	10		5X	/		E					/						*

01	3 main ports			3
	4 main ports			4
02	Directional valve			WE
03	Size 10			10
04	Symbols e. g. C, E, EA, EB, etc.; for the possible version, see Symbols			z. B. C
05	Component series 50 … 59 (50 … 59: unchanged installation and connection dimensions)			5X
06	With spring return			no code
	With reinforced compression spring			D
	Without spring return			O
	Without spring return with detent			OF
07	High-power solenoid, wet-pin, with detachable coil			E
08	Direct voltage 12 V			G12
	Direct voltage 24 V			G24
	Direct voltage 26 V			G26
	Direct voltage 48 V			G48
	Nominal voltage 96 V at DC solenoid in operation with AC voltage mains (AC voltage mains 100/110 V - 50/60 Hz with an admissible voltage tolerance of +/- 10 %)			G96
	Direct voltage 110 V			G1101)
	Direct voltage 125 V			G125
	Nominal voltage 180 V at DC solenoid in operation with AC voltage (AC voltage mains 200 V - 50/60 Hz with an admissible voltage tolerance of +/- 10 %)			G180
	Nominal voltage 205 V at DC solenoid with operation with AC voltage mains (AC voltage mains 230 V – 50/60 Hz with an admissible voltage tolerance of +/- 10 %)			G205
	Direct voltage 220 V			G220
	Alternating voltage 100 V			W100R1)
	Alternating voltage 110 V			W110R1)
	Alternating voltage 120 V			W120R1)
	Alternating voltage 200 V			W200R1)
	Alternating voltage 230 V			W230R1)
	Connection to AC voltage mains via control with rectifier (see table Mating connectors) 2)
	Electrical connections and available voltages see Technical data
09	Without manual override			no code
	With concealed manual override (standard)			N93)
	With concealed manual override and protective cap 5)			N83)
	With lockable manual override "mushroom button" (large)			N53; 4)
	With manual override "mushroom button" (large), not lockable			N63)
Corrosion resistance (outside)
10	None (valve housing primed)			no code
	Improved corrosion protection (240 h salt spray test according to EN ISO 9227) (see also Technical data)			J3
Electrical connection
11	Individual connection
	Without mating connector; connector DIN EN 175301-803			K46)
	Without mating connector; connector DIN EN 175301-803 (coil with potted-in connector base and sealing element to valve housing (IP67))			K4K6) 7)
	Without mating connector, 4-pole with connector M12 x 1 according to IEC 60947-5-2, integrated interference protection circuit and status LED			K72L 6)
	Without mating connector; connector AMP Junior-Timer			C4Z6)
	Central connection
	Cable entry at the cover, with indicator light			DL
	Central plug-in connection at the cover, with indicator light (without mating connector); connector according to DIN EN 175201-804			DK6L
	Without mating connector; threaded connection 1/2“-14 NPT			DAL
	Cable gland at the cover, with indicator light and cable bridge at the ground connection			DJL
	Mini-charge connector, 5-pole			DK25L
	For further electrical connections and available voltages, see Technical data
Switching time increase
12	Without switching time increase			no code
	With switching time increase (only with symbol ".73"; not for version "D" with reinforced compression spring; more information upon request)			A12
13	Without throttle insert			no code
	With throttle insert 8; 9);
	Connection	Throttle Ø in mm
		0,8 mm	1,0 mm	1,2 mm
	P	B08	B10	B12
	A	H08	H10	H12
	B	R08	R10	R12
	A and B	N08	N10	N12
	T 10)	X08	X10	X12
	Further throttle insert diameters upon request.
Control spool play
14	Standard			no code
	Minimum (to be selected in case of reduced leakage → higher level of oil cleanliness recommended)			T06
	Increased (to be selected in case of a hydraulic fluid/environment temperature difference >25 K → increased internal leakage)			T12
Seal material
15	NBR seals			M
	FKM seals			V
	Seals for HFC hydraulic fluids			MH
	Low-temperature version			MT
	Observe compatibility of seals with hydraulic fluid used.
16	Approval according to CSA C22.2 no. 139-10			CSA
	Porting pattern according to ANSI B93.9 (if solenoid "a" is energized, channel P is connected to A)			AN
17	Further details in the plain text			*

	1) Only for “central connection” version
	2) Only for “individual connection” version
	3) The manual override cannot be allocated a safety function. The manual override units may only be used up to a tank pressure of 50 bar.
	4) With tank pressures above 50 bar, it cannot be guaranteed that the valve remains in the position switched by the manual override "N5".
	5) Protective cap must be removed prior to actuation.
	6) Mating connectors, separate order, see Mating connectors and data sheet 08006.
	7) Recommended for mobile applications; with additional sealing between solenoid coil and pole tube.
	8) When the admissible valve performance limit is exceeded, throttle inserts are to be installed (see Performance limits).
	9) Not with low-temperature version "MT".
	10) When throttle inserts are used in channel T, the pressure in the working ports and in case of connection to the tank chambers must not exceed 210 bar.

Notice:

For directional spool valves NG10 with spool position monitoring, see data sheet 23352.

For applications outside these parameters, please consult us!

general

Size			10				10
Type			Einzelanschluss	Zentralanschluss	Einzelanschluss	Zentralanschluss	Einzelanschluss	Zentralanschluss
Weight	Valve with one solenoid	kg	3.9	4	3.9	4	3.9	4
Weight	Valve with two solenoids	kg	5.5	5.6	5.5	5.6	5.5	5.6
Installation position 1)			any				any
Ambient temperature range	NBR seals	°C	-20 … +70				-20 … +70
	FKM seals	°C	-15 … +70				-15 … +70
	HFC hydraulic fluid 2)	°C	-20 … +50				-20 … +50
	Low-temperature version	°C	-40 … +50				-40 … +50
Storage temperature range		°C	-20 … +50				-20 … +50
MTTFD values according to EN ISO 13849 3)		Years	300				300

1)	With suspended installation, higher sensitivity to contamination. Horizontal installation is recommended.
2)	For the use at low temperatures, see Project planning information
3)	For further details, see data sheet 08012

hydraulic

Size			10
Maximum operating pressure	Port P	bar	350
	Port A	bar	350
	Port B	bar	350
	Port T 1)	bar	210
Maximum flow		l/min	160
Flow cross-section (spool position 0)	Symbol Q		approx. 6 % of nominal cross-section
Flow cross-section (spool position 0)	Symbol W		approx. 3 % of nominal cross-section
Hydraulic fluid			see table
Hydraulic fluid temperature range 2)	NBR seals	°C	-20 … +80
	FKM seals	°C	-15 … +80
	HFC hydraulic fluid	°C	-20 … +50
	Low-temperature version	°C	-40 … +50
Viscosity range		mm²/s	2.8 … 500
Maximum admissible degree of contamination of the hydraulic fluid 3)			Class 20/18/15 according to ISO 4406 (c)

1)	With symbols A and B, port T must be used as leakage oil connection if the operating pressure exceeds the admissible tank pressure.
2)	at the valve working ports of the valve
3)	The cleanliness classes specified for the components must be adhered to in hydraulic systems. Effective filtration prevents faults and simultaneously increases the life cycle of the components. For the selection of the filters, see www.boschrexroth.com/filter.

Hydraulic fluid		Classification	Suitable sealing materials	Standards	Data sheet
Mineral oils		HL, HLP, HLPD, HVLP, HVLPD	NBR, FKM	DIN 51524	90220
Bio-degradable	Insoluble in water	HETG	NBR, FKM	ISO 15380	90221
	Insoluble in water	HEES	FKM	ISO 15380
	Soluble in water	HEPG	FKM	ISO 15380
Containing water	Water-free	HFDU, HFDR	FKM	ISO 12922	90222
Containing water	Containing water	HFC (Fuchs Hydrotherm 46M, Petrofer Ultra Safe 620 )	NBR	ISO 12922	90223
Important information on hydraulic fluids: For further information and data on the use of other hydraulic fluids, please refer to the data sheets above or contact us. There may be limitations regarding the technical valve data (temperature, pressure range, life cycle, maintenance intervals, etc.). The ignition temperature of the hydraulic fluid used must be 40 K higher than the maximum solenoid surface temperature. Flame-resistant – containing water: Maximum pressure differential per control edge 50 bar. Pressure pre-loading at the tank port >20% of the pressure differential; otherwise, increased cavitation Life cycle compared to operation with mineral oil HL, HLP 50 to 100 % Bio-degradable and flame-resistant: When using hydraulic fluids that are simultaneously zinc-solving, zinc may accumulate (700 mg zinc per pole tube).

electrical

Voltage type			Direct voltage	AC voltage	Direct voltage	AC voltage	Direct voltage	AC voltage
Nominal voltage according to VDE 0580		V	12 24 26 48 96 110 125 180 205 220	100 1) 110 1) 120 1) 200 1) 230 1)	12 24 26 48 96 110 125 180 205 220	100 1) 110 1) 120 1) 200 1) 230 1)	12 24 26 48 96 110 125 180 205 220	100 1) 110 1) 120 1) 200 1) 230 1)
Voltage tolerance (nominal voltage)		%	± 10		± 10
Nominal power according to VDE 0580		W	40 2)	40	40 2)	40	40 2)	40
Duty cycle		%	100 3)		100 3)
Switching time	ON (pressure change 5 %)	ms	60 … 104 4)		60 … 104 4)
	ON (pressure change 95 %)	ms	90 … 165 4)		90 … 165 4)
	OFF (pressure change 5 %)	ms	12 … 50 5)	230 … 330 5)	12 … 50 5)	230 … 330 5)	12 … 50 5)	230 … 330 5)
	OFF (pressure change 95 %)	ms	48 … 104 5)	250 … 360 5)	48 … 104 5)	250 … 360 5)	48 … 104 5)	250 … 360 5)
Switching time according to ISO 6403	ON	ms	45 … 60 6)		45 … 60 6)
Switching time according to ISO 6403	OFF	ms	20 … 30 6)	250 … 360 6)	20 … 30 6)	250 … 360 6)	20 … 30 6)	250 … 360 6)
Maximum switching frequency		1/h	15000	7200	15000	7200	15000	7200
Maximum surface temperature of the coil		°C	140 7)		140 7)
Insulation class VDE 0580			F		F
Electrical fuse protection			Every solenoid must be protected individually using a suitable fuse with tripping characteristics K (inductive loads). The valve must be installed on a surface that is included in the equipotential bonding.		Every solenoid must be protected individually using a suitable fuse with tripping characteristics K (inductive loads). The valve must be installed on a surface that is included in the equipotential bonding.
Protective earthing conductor and screening			see connector pin assignment (CE-compliant installation)		see connector pin assignment (CE-compliant installation)
Conformity			CE according to Low-Voltage Directive 2006/95/EC tested according to DIN EN 60204-1 (VDE0113-1): 2010-05 and DIN VDE 0580: 2000-07		CE according to Low-Voltage Directive 2006/95/EC tested according to DIN EN 60204-1 (VDE0113-1): 2010-05 and DIN VDE 0580: 2000-07

1)	Possible with central connection or via rectifier. Mating connectors with rectifier (separate order). Rectifiers must comply with the relevant standards as well as the coil performance data! With a central connection, the rectifier is on the board.
2)	Reduction of the nominal power by approx. 40 % when using a 24 V coil with connector switching amplifier type VT-SSBA1-PWM-1X/V002/5 (separate order, material no. R901265633, see data sheet 30362)
3)	Operating mode according to VDE 0580
4)	Measured with flow, 80 % performance limit and horizontal installation position. Not with symbols A, B and .73. Reduction of the switching time by approx. 50 % when using a 12 V coil with connector switching amplifier type VT-SSBA1-PWM-1X/V001/5 (separate order, material no. R901265633, see data sheet 30362)
5)	Measured with flow, 80% performance limit and horizontal installation position.
6)	Measured without flow
7)	Surface temperature > 50 °C, provide contact protection.

Notices!

The solenoid coils must not be painted. Actuation of the manual override is only possible up to a tank pressure of approx. 50 bar. Avoid damage to the bore of the manual override! (Special tool for actuation, separate order, material no. R900024943). When the manual override is blocked, actuation of the opposite solenoid must be ruled out! The simultaneous actuation of 2 solenoids of one valve must be ruled out! Use cables that are approved for a working temperature above 105 °C. Valves with individual connection and a supply voltage of 12 V or 24 V can be operated with twice the voltage to reduce the switching time. For this purpose, the voltage has to be reduced to the nominal valve voltage after 100 ms by means of pulse width modulation. The maximum admissible switching frequency is 3 1 /s. Due to possible overload of the board, valves with central connection must not be operated with twice the voltage. If the standard environmental conditions according to VDE 0580 cannot be provided, the valve must be especially protected!

Electrical connections and available voltages
	Ordering code connector		Ordering code														Protection class according to DIN EN 60529 1)	Protection class according to VDE 0580
			Direct voltage									AC voltage
			G12	G24	G26	G48	G96	G110	G180	G205	G220	W100R	W110R	W120R	W200R	W230R
Individual connection	Without mating connector, individual connection with connector according to DIN EN 175301-803	K4	✔	✔	–	✔	✔	–	✔	✔	✔ 3)	–	–	–	–	–	IP65	\|
		K4K2)	✔ 3)	✔ 3)	✔ 3)	–	–	–	–	–	–	–	–	–	–	–	IP65, IP67	\|
	Without mating connector, 4-pole with connector M12 x 1 according to IEC 60947-5-2, integrated interference protection circuit and status LED	K72L	–	✔ 3)	–	–	–	–	–	–	–	–	–	–	–	–	IP65	\|\|\| 5)
	Without mating connector; connector AMP Junior-Timer	C4Z	–	–	✔ 3)	–	–	–	✔	–	–	–	–	–	–	–	IP66	\|\|\| 5)
Central connection	Without mating connector; threaded connection 1/2“-14 NPT	DAL	✔	✔	–	–	✔	–	–	✔	✔	✔	✔	✔	✔	✔	IP65 6)	\|
	Central plug-in connection at the cover, with indicator light (without mating connector); connector according to DIN EN 175201-804	DK6L7)	✔	✔	–	–	✔	✔	–	✔	✔	✔	✔	✔	✔	✔	IP65	\|
	Cable gland at the cover, with indicator light (terminal area 6 … 12 mm)	DL4)	✔	✔	–	–	✔	✔	–	✔	✔	✔	✔	✔	✔	✔	IP65	\|
	Cable gland at the cover, with indicator light and cable bridge at the ground connection	DJL4)	–	✔	–	–	–	✔	–	–	–	✔	✔	–	✔	✔	IP65	\|
	Mini-change connector, 5-pole according to ANSI/B93.55M-1981	DK25L7)	–	✔	–	–	✔	–	–	–	–	✔	✔	✔	✔	✔	IP65	\|

1)	Only with correctly mounted valve with a mating connector suitable for the protection class.
2)	Recommended for mobile applications; with additional sealing between solenoid coil and pole tube.
3)	Solenoid coils without "Recognized component" according to UL 429
4)	Possible with version “J3”.
5)	With protection class III, a protective extra-low voltage with isolation transformer (PELV, SELV) is to be provided.
6)	Only with professionally designed connection with appropriate sealing to the central connection.
7)	Connector pin assignment see Electrical connections.

In the electrical connection, the protective earthing conductor (PE, grounded) is to be connected in accordance with the stipulations.

Notices:

The plug-in connectors used are not intended to be plugged in or disconnected during normal operation under load. Operation of the valves only admissible with appropriate and locked mating connector.

(measured with HLP46, ϑOil = 40 ±5 °C)

Δp-qV characteristic curves

Symbol	Direction of flow
Symbol	P –A	P – B	A – T	B – T
A; B	6	6	–	–
A73, B73	23	23	–	–
C	1	2	5	7
D	2	2	5	7
D73	25	26	26	27
E	17	16	19	21
E67	4	4	11	24
E73	17	18	21	21
F	2	3	22	23
G	4	4	24	24
G73	18	18	24	24
H	14	14	20	21
H73	14	14	6	9
J	3	3	9	11
J73	22	21	23	24
L	3	3	9	9
L73	22	10	11	24
M	14	14	6	8
P	17	14	20	23
Q	16	17	4	8
R	18	21	18	24
R73	24	24	23	24
T	18	4	10	24
U	3	3	6	11
U10	upon request
U73	22	22	23	24
V	17	17	18	20
W	upon request
X7	upon request
X34	upon request
Y	17	16	18	21
Y11	3	2	4	9
Y73	26	26	26	28

Central position:
Symbol	Direction of flow
Symbol	P – A	P – B	B – T	A – T	P – T
H	12	12	13	13	15

Performance limits

(measured with HLP46, ϑOil = 40 ±5 °C)

Notice:

The specified performance limits are valid for use with two directions of flow (e. g. from P to A and simultaneous return flow from B to T).

Due to the flow forces acting within the valves, the admissible performance limit may be considerably lower with only one direction of flow (e. g. from P to A while port B is blocked)!

In such use cases, please consult us!

The performance limit was determined when the solenoids were at operating temperature, at 10 % undervoltage and without tank preloading.

Spring side

Characteristic curve	Symbol
1	L
2	A
3	B
4	Y
5	E73, Q
6	F
7	G73
8	M; V
9	P
10	A73
11	H73

Solenoid side

Characteristic curve	Symbol
1	L
12	A/O
13	J
14	H
15	D73
16	B73
17	Y11
18	C; D; E73
19	E67
20	G

Performance limits

(measured with HLP46, ϑOil = 40 ±5 °C)

Notice:

The specified performance limits are valid for use with two directions of flow (e. g. from P to A and simultaneous return flow from B to T).

Due to the flow forces acting within the valves, the admissible performance limit may be considerably lower with only one direction of flow (e. g. from P to A while port B is blocked)!

In such use cases, please consult us!

The performance limit was determined when the solenoids were at operating temperature, at 10 % undervoltage and without tank preloading.

Solenoid side

Characteristic curve	Symbol
21	A; B
22	G73
23	F; L73
24	E
25	C/O; D/O
26	J73
27	U

Solenoid side

On solenoid side

Characteristic curve	Symbol
28	Q
29	V
30	P
31	R
32	R73
33	T
34	U73
35	Y73

Notices!

Representation according to DIN ISO 1219-1.

Hydraulic interim positions are shown by dashes.

1)	Example: ● Symbol E with spool position “a” ordering code ..EA.. ● Symbol E with spool position “b” ordering code ..EB..
2)	For the flow cross-section refer to the Technical data

Notices!

Representation according to DIN ISO 1219-1.

Hydraulic interim positions are shown by dashes.

Other symbols upon request.

Over-current fuse and switch-off voltage peaks

Maximum admissible overvoltages according to DIN EN 60664-1:2008-01 (VDE 0110-1) (overvoltage category II):
Electrical connection 1)	Nominal voltage in V	Rated current in A	Maximum switch-off overvoltage to be energized in V 2)
K4, K4K, DAL, D6KL, DL	12	3,72	500
K4, K4K, K72L, DAL, D6KL, DL, DJL, DK25L	24	1,74	500
K4, C4Z	26	1,70	500
K4	48	0,57	500
K4, DAL, D6KL, DL, DK25L	96	0,47	500
D6KL, DL, DJL	110	0,41	500
K4	125	0,22	500
K4, C4Z	180	0,28	500
K4, DAL, D6KL, DL	205	0,22	500
K4, DAL, D6KL, DL	220	0,21	500

1)	Interference protection circuit integrated
2)	To be ensured by user circuitry

Notice!

When solenoid coils are switched off, voltage peaks result which may cause faults or damage in the connected control electronics. We therefore recommend limiting them to 2 x nominal voltage by means of an interference protection circuit. It must be noted that a diode switched in an antiparallel form extends the switching off time.

Assignment – individual connection

Electrical connections and coil connection combinations
Ordering code connector		Top view	Circuit diagram	Pin	Connections, assignment
3-pole connector (2+PE) according to DIN EN 175301-803	K4, K4K 2)			1	Solenoid coil, polarity-independent
				2
				Earthed	Earthing
4-pole connector according to IEC 60947-5-2, M12x1 with suppressor diode, only 24 V DC, integrated interference protection circuit and status LED	K72L			1	Internal bridge
				2
				3	Solenoid coil GND
				4	Solenoid coil 24 VDC supply voltage
				5	Without function
2-pole connector, type AMP Junior-Timer, rotated by 90° relative to valve axis	C4Z			1	Solenoid coil, polarity-independent
				2

1)	M3, tightening torque maximum MA max = 0.5 Nm
2)	Coil with potted-in connector base and sealing element to valve housing (IP67)

Assignment – central connection

Electrical connections and coil connection combinations
Ordering code connector		Top view	Circuit diagram	Pin	Connections, assignment
Cable gland at the cover, with indicator light (terminal area 6 … 12 mm)	DL			1+	Valve solenoid "a" 2)
Cable gland at the cover, with indicator light and cable bridge at the ground connection (terminal area 6 … 12 mm)	DJL			2-
				3+	Valve solenoid "b" 2)
Without mating connector; threaded connection 1/2“-14 NPT (terminal area 6 … 12 mm)	DAL			4-
				Earthed	Earthing
Central connection at the cover, with indicator light (without mating connector) with connector according to DIN EN 175201-804	DK6L			1	Valve solenoid "a"
				2
				3	Valve solenoid "b"
				4
				5	Not assigned
				6
				Earthed	Earthing
Mini-change connector, 5-pole according to ANSI/B93.55M-1981	DK25L			1	Valve solenoid "a"
				5
				2	Valve solenoid "b"
				4
				3	Earthing

1) Bridge only for version “DJL"

2) Core marking:

+ → red

- → blue

3) Cable gland with NPT thread

Mating connectors according to DIN EN 175301-803

For details and more mating connectors see data sheet 08006
Connection	Valve side	Color	Part number
Connection	Valve side	Color	Without circuitry	With indicator light 12 ... 240 V	With rectifier 12 ... 240 V	With indicator light and Zener diode suppression circuit 24 V
M16 x 1,5	a	gray	R901017010	–	–	–
M16 x 1,5	a/b	black	R901017011	R901017022	R901017025	R901017026
1/2″ NPT (Pg16)	a	red/brown	R900004823	–	–	–
1/2″ NPT (Pg16)	a/b	black	R900011039	R900057453	R900842566	–

Energy savings and fast switching 1)
Details see data sheet 30362
		Part number
		Type VT-SSBA1-PWM-1X/V001/5 as fast switching amplifier (switching time reduction by approx. 50 %) 2)	Type VT-SSBA1-PWM-1X/V002/5 for energy reduction (energy saving by approx. 40 %) 3)
a/b	black	R901265633	R901290194

1)	Groove with symbols C, D, E, E67, J, J2, Y and Y11; not for version reinforced compression spring “D”
2)	Only for version “G12” and “K4/K4K”
3)	Only for version “G24” and “K4/K4K”

Cartridge with PWM connector according to data sheet 30362:

Depending on the control spool, increasing the performance limit is possible. With version "G24" (energy saving), the coil temperature is reduced by ≥ [si]30 °C[s/i][imp]86 °F[/imp] for 100 % duty cycle.

Individual connection

Dimensions in mm

1.1	Solenoid “a”
1.2	Solenoid “b”
5.1	Mating connector without circuitry for connector "K4", separate order, see "Accessories"
5.2	Mating connector without circuitry for connector "K4K" (separate order, see data sheet 08006)
5.3	Mating connector angled with M12x1 plug-in connection and status LED for connector "K72L", separate order, see "Accessories"
5.4	Double mating connector without/with circuitry for connector "K4" (separate order, see data sheet 08006)
5.5	Mating connector (AMP Junior Timer) for connector "C4Z" (separate order, see data sheet 08006)
6	Mating connector without circuitry for connector "K4", separate order, see "Accessories"
9	Name plate
10	Identical seal rings for ports A, B, P, TA, TB
11.1	Plug screw for valves with one solenoid on B side
11.2	Plug screw for valves with one solenoid on A side
12	Space required to remove the mating connector/angled socket
13	Space required to remove the coil
14	Mounting nut, tightening torque MA = 14.5±1.5  Nm
15	Porting pattern according to ISO 4401-05-04-0-05
16	Connection TB can only be used in connection with separately produced bore.

Notes:

Deviating from ISO 4401, port T is referred to as TA and port T1 is referred to as TB in this data sheet. The dimensions are nominal dimensions which are subject to tolerances.

Dimensions for manual overrides see manual overrides.

For item explanations, valve mounting screws and subplates see legend - dimensions.

Central connection

Dimensions in mm

7.1	Cable gland Pg 16 "DL" (terminal area 6 … 12 mm); lock nut, tightening torque MA = 3.3 Nm±10 %
7.2	Central connection box "DAL“ 1/2“ NPT, tightening torque MA = 5 Nm ± 10 %; sealing by sealant
8.1	Mating connector for connector "DK6L” (separate order, material no. R900002803, see data sheet 08006)
8.2	Mini-change connector, 5-pole for connector "DK25L" (separate order, material no. R900057631)
12	Space required to remove the mating connector/angled socket
14	Mounting nut, tightening torque MA = 14.5±1.5  Nm
15	Porting pattern according to ISO 4401-05-04-0-05
16	Connection TB can only be used in connection with separately produced bore.
17	CoverNotice: The valve may only be operated with properly mounted cover! Tightening torque of the cover screws MA = 1.0 Nm ± 10 %.Prior to opening the frame, it must be ensured that the valve has no voltage!

Special points with version "DAL" and "DL"

Version "DL" is only suitable for permanently installed cables. Lines must be routed in a strain-relieved manner! Minimum line cross-section 0.75 mm2 (AWG 18) With a maximum line cross-section of 1.5 mm2 (AWG 16) and if wire end ferrules are used, wire end ferrules without flange must be crimped to a maximum cross-section of 1.5 x 2 mm (trapezoidal crimp) using an appropriate tool (e. g. “PZ 6/5”, co. Weidmüller) to ensure that they fit into the printed circuit board terminals. Before crimping, the wires have to be stripped to 9-1 mm. For the corresponding line cross-section, 1) wire end ferrules without flange (according to DIN 46228-1) with a length of 8 mm are to be used. For the grounding connection, ring cable lugs according to DIN 46234-4-1 are to be used, tightening torque MA = 1.75 Nm ± 10 %

Notice:

The lines must be finely stranded.

Dimensions for manual overrides see manual overrides.

For item explanations, valve mounting screws and subplates see legend - dimensions.

Notice:

The dimensions are nominal dimensions which are subject to tolerances.

Manual override

Dimensions in mm

2	Version without and with concealed manual override "N9" (standard)
3	Version with concealed manual override and protective cap "N8". (The protective cap must be removed prior to actuation.)
4	Version with manual override "N5" and “N6”

For item explanations, valve mounting screws and subplates refer to the legend - dimensions.

Notice:

The dimensions are nominal dimensions which are subject to tolerances.

Subplates according to data sheet 45054 (separate order)

G 66/01 (G3/8)

G 67/01 (G1/2)

G 534/01 (G3/4)

G 66/12 (SAE-6; 9/16-18)1)

G 67/12 (SAE-8; 3/4-16)1)

G 534/12 (SAE-12; 1-1/16-12)1)

1) Upon request

Valve mounting screws (separate order)

4 hexagon socket head cap screws, metric

ISO 4762 - M6 x 40 - 10.9-flZn-240h-L

(friction coefficient μtotal = 0.09 to 0.14);

tightening torque MA = 12.5 Nm ± 10 %,

material no. R913000058

4 hexagon socket head cap screws

ISO 4762 - M6 x 40 - 10.9 (self procurement)

(friction coefficient μtotal = 0.12 to 0.17);

tightening torque MA = 15.5 Nm ± 10 %

4 hexagon socket head cap screws UNC

1/4-20 UNC x 1-1/2″ ASTM-A574

(friction coefficientμtotal = 0.19 to 0.24);

Tightening torque MA = 25 Nm ± 15 %,

(friction coefficient μtotal = 0.12 to 0.17);

tightening torque MA = 19 Nm ± 10 %,

material no. R978800710

With different friction coefficients, the tightening torques are to be adjusted accordingly!

Temperature range and maximum operating pressure in case of use at low temperatures

Connection	Pressure	Temperature range in °C
– P, A, B, T	static 100 bar	–40 … –35
– P, A, B	dynamic from 100 bar to 350 barin linear form as a function of the temperature	–35 … –30
– T	dynamic from 100 bar to 210 bar in linear form as a function of the temperature	–35 … –30
– P, A, B, T	Maximum operating pressure	–30 … +50

Mating connectors for valves with connector “K4”, without circuitry, standard

3P Z4

Mating connectors for valves with connector “K4”, without circuitry, standard

3P Z4

For valves with connector “K4” according to EN 175301-803 and ISO 4400, 2-pole + PE, “large cubic connector” Mating connectors for valves with one or two solenoids (individual connection)

Data sheet

Spare parts & repair

Mating connectors for valves with connector “K4”, without circuitry, standard

3P Z45

Mating connectors for valves with connector “K4”, without circuitry, standard

3P Z45

For valves with connector “K4” according to EN 175301-803 and ISO 4400, 2-pole + PE, “large cubic connector” Mating connectors for valves with one or two solenoids (individual connection)

Data sheet

Spare parts & repair

Mating connectors for valves with connector “K4”, with indicator light

3P Z5L

Mating connectors for valves with connector “K4”, with indicator light

3P Z5L

For valves with connector “K4” according to EN 175301-803 and ISO 4400, 2-pole + PE, “large cubic connector” Mating connectors for valves with one or two solenoids (individual connection)

Data sheet

Spare parts & repair

Mating connectors for valves with connector “K4”, with indicator light

3P Z55L

Mating connectors for valves with connector “K4”, with indicator light

3P Z55L

For valves with connector “K4” according to EN 175301-803 and ISO 4400, 2-pole + PE, “large cubic connector” Mating connectors for valves with one or two solenoids (individual connection)

Data sheet

Spare parts & repair

Mating connectors for valves with connector “K4”, with indicator light and Zener diode suppression circuit

3P Z5L1

Mating connectors for valves with connector “K4”, with indicator light and Zener diode suppression circuit

3P Z5L1

For valves with connector “K4” according to EN 175301-803 and ISO 4400, 2-pole + PE, “large cubic connector” Mating connectors for valves with one or two solenoids (individual connection)

Data sheet

Spare parts & repair

4WE 10 U12-5X/EG24K4/M

Manufacturer: Bosch Rexroth

Material #: R901350512

Model : 4WE 10 U12-5X/EG24K4/M

More are expected on April 23, 2025

This product is eligible for factory repair.

Type .WE 10 E…

Type .WE 10 ../OF…

general

hydraulic

electrical

(measured with HLP46, ϑOil = 40 ±5 °C)

Δp-qV characteristic curves

Performance limits

Spring side

Solenoid side

Performance limits

Solenoid side

Solenoid side

On solenoid side

Over-current fuse and switch-off voltage peaks

Assignment – individual connection

Assignment – central connection

Mating connectors according to DIN EN 175301-803

Individual connection

Central connection

Manual override

Temperature range and maximum operating pressure in case of use at low temperatures

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