MN3E0 / MN4E0Series - Romicon

Type with built-in individual power supply function (AUX)
Handy for adjusting devices!!
A random valve can be operated with a separate
power without disconnecting the existing wiring.
Individual external input is possible even with the
reduced wiring manifold.This allows individual valves to
be operated without stopping the system.
A random valve can be operated with an external power
supply while the common wiring is connected.
The height does not differ with this compact design.
Application examples
Use to adjust the product at startup or to facilitate maintenance
Electrically operate a valve without disconnecting existing wiring
Electrically shield a valve without disconnecting existing wiring
*The valve is cut off from the wiring in the manifold when the
external input socket is inserted, so this can be used as a
temporary individual shut-off switch.
271
SCPD2
SCM
MDC2
SMD2
SSD
STS/L
LCS
STR2
MRL2
GRC
Cylinder
switch
KBA
MN4E0
4GA/B
M4GA/B
MN4GA/B
F.R.
(Module unit)
Clean F.R.
Precision
regulator
Pressure/
Differential
pressure gauge
Electro
pneumatic
regulator
Flow control
valve
Auxiliary
valve
Joint/
tube
Pressure
sensor
Flow
sensor
Valve for
air blow

272
MN3E0/MN4E0 Series variations
Number of position solenoid
Series Note 1
JIS symbol
MN3E0
3 port valves/
two 3 port valves
integrated type
MN4E0
4 port valve
3 port valve
2 position NC self reset type 2 position NO self reset type
Two 3 port valves integrated type
NC/NC type self reset type
PA
PR
PA
PR
PA
PR
PA
PR
a
b
a
b
a
b
a
b
a
a
Differential pressure
Differential pressure
( spring return ) ( spring return )
1(P) 3(R)
1(P) 3(R)
N3E010 N3E0110
N3E020 N3E0210
1(P)
4(A)
2(B)
Differential pressure ( )
1(P) 3(R) 3(R)
1(P)
N3E0660 N3E066S0
2(B)
1(P)
4(A)
1(P) 3(R)
3(R)
1(P)
N3E0670 N3E067S0
2(B)
1(P)
4(A)
1(P) 3(R)
3(R)
1(P)
N3E0760 N3E076S0
2(B)
1(P)
4(A)
4(A)
4(A)
2 position NC self hold type 2 position NO self hold type
1(P) 3(R)
1(P) 3(R)
3(R)
1(P)
N3E0770 N3E077S0
4 port valve
2 position single self reset type
Differential pressure
2 position double self hold types
spring return
a 4(A) 2(B)
a 4(A) 2(B) b
1(P) 3(R)
1(P) 3(R)
N4E010 N4E020
a 4(A) 2(B) b a 4(A) 2(B) b
1(P) 3(R)
N4E030 N4E040
a 4(A) 2(B) b
1(P) 3(R)
N4E050
3(R)
NC/NO type self reset type
3(R)
NO/NC type self reset type
3(R)
NO/NO type self reset type
3(R)
a
1(P) 3(R)
2(B)
b a
2(B)
b
return
Differential pressure ( return )
Differential pressure ( return )
Differential pressure ( )
return
( )
PA
PR
PA
PR
PA
PR
PA
PR
a
a
a
b
b
b
b
a
1(P) 3(R)
1(P)
4(A)
1(P)
1(P)
4(A)
1(P)
1(P)
1(P)
4(A)
1(P)
2(B)
2(B)
4(A)
1(P)
2(B)
2(B)
3(R) 3(R)
3(R) 3(R)
3(R) 3(R)
3(R) 3(R)
3(R) 3(R)
3(R) 3(R)
3(R) 3(R)
3(R) 3(R)
3(R)
1(P)
3(R)
1(P)
3(R)
1(P)
3(R)
1(P)
3 position all ports closed 3 position ABR connection
3 position PAB connection
NC/NC type self reset type
( )
Differential pressure
spring return
( )
NC/NO type self reset type Differential pressure
spring return
( )
NO/NC type self reset type
Differential pressure
spring return
NO/NO type self reset type
Differential pressure
( spring return)
Flow characteristics
C[dm 3 /(s·bar)]
0.54
0.50
0.54
0.50
N4E030
( )
N4E050
Note 1 Refer to "Self Reset Type" on page 247 for details on the self reset type's operation.
Note 2 The conversion for the effective sectional area S and acoustic velocity conductance C is S 5.0 X C.
Note 2
Voltage
DC24V
DC12V

274
1
2
3
WARNING
WARNING
The 4E Series is a pilot operated solenoid valve. The main
valve will not change even if the manual override is operated
unless air is supplied to the P port (PA port for external pilot).
A protective cover for manual override is equipped as a standard.
The protective cover for manual override is closed when
the product is shipped, so the manual override is protected
and cannot be seen at delivery. Open the protective cover
and operate the manual override.
Note that the protective cover cannot be closed unless the
locking manual override is released.
The non-locking and locking manual override are common.
The lock is applied when pressed in and turned. Always press
down first to lock. The manual override could be damaged,
and air could leak, etc., if turned without pressing in.
Opening the protective cover for manual override
Do not apply excessive force when opening or closing the
protective cover for manual override. Excessive external force
will result in damage. (Less than 5N)
Slide type
Self reset type
The self reset type valve block solenoid position is available.
There are two self reset types, the "differential pressure return" and "differential pressure spring return". With either type, the main valve
returns to the origin (self resets) when OFF. However, if the supply pressure is 0 in the ON state, * The "differential pressure return" type
will hold the current position, and * The "differential pressure spring return" type will return to the origin with the spring force.
Select the type according to the interlock specifications of the device in use.
List of main valve hold/return states
N3E0
N4E0
1/11
2/21
66/67/76/77
66S/67S/76S/77S
1
2
3/4/5
Pneumatic components
Safety precautions
Always read this section before starting use.
Refer to Page 262 to Page 265 for general precautions.
Pilot operated 3, 4 port valve MN3E0/MN4E0 series
Valve type Source pressure down when ON source pressure return Power supply shutdown when ON
3 port valve single NC/NO self reset type (differential pressure spring return) OFF (origin) travel ON travel OFF (origin) travel
3 port valve double NC/NO self hold type
ON position holding ON position holding
Two 3 port valves integrated type NC/NO self reset type (differential pressure return)
ON position holding
OFF (origin) travel
Two 3 port valves integrated type NC/NO self reset type (differential pressure spring offset) OFF (origin) travel ON travel OFF (origin) travel
4 port valve 2 position single self reset type (differential pressure spring offset) OFF (origin) travel ON travel OFF (origin) travel
4 port valve 2 position double self hold type
ON position holding ON position holding
4 port valve 3 position
OFF (origin) travel ON travel OFF (origin) travel
Manual override
Operating the manual override
1 Pushing non-locking type
Push in the direction of the arrow until there is no movement.
The manual override will be unlocked when released.
2
Pushing locking type
Push in and then turn 90° in the direction of the arrow.
The manual override will not be unlocked even when
released.
OFF
WARNING
Make sure that no one is near the operating cylinder when
operating the manual override.
90˚
ON

WARNING
Check valve
The check valve blocks the back pressure from adjacent air devices, etc. However, the structure does not allow the pressure seal to be
held continuously so do not use for purposes other than the back pressure block.
WARNING
11
Type with individual power supply function (AUX)
The polarity of the reduced wiring side and individual power supply side is a plus common.
Proper operation will not take place if the polarity is mistaken.
Always use a separate power for the reduced wiring side and the individual power input side.
If the same power is used, the reduced wiring side's wiring will not be cut off, resulting in incorrect operations.
Inputting the individual power
Open the electric cover, and connect the power input socket
(N4E0- socket assembly S/D).
WARNING
11
When the power input socket is connected, the valve's internal
wiring will be temporarily separated from the reduced wiring in
the manifold, so power can be supplied from an external source.
Shut off when socket is inserted
b (-)
COM (+)
a (-)
b (-)
COM (+)
a (-)
Manifold internal wiring side AUX terminal side
Outline of AUX terminal polarity and internal circuit
Mixed wiring block
a (-)
COM (+)
b (-)
b
a
Valve block upper socket
insertion diagram
Socket insertion Fig.
When using the mixed wiring block specifications by using T*R (right side specifications) for the wiring block, short-circuiting of the signal wires between the wiring
blocks must be prevented. If the left and right signals are connected, unintentional valve block operation will take place and device damage could occur.
Lay out the supply/exhaust block N4E0-Q*-C (specifications without internal wiring) between the valve supplied with power from the left
side and the valve supplied power from the right side.
2
4
6
8
10
T*,TM
1
3
5
7
9
com
T*
( TM control stations)
(T*R control stations)
Supply and exhaust T*R
a b com a b com a com
Without inside
a b com a b com
wiring
com
Example of incorrect layout The left and right wiring interfere at the center.
T*,TM
2
4
6
8
10
1
3
5
7
9
com
T*
TM
( control stations)
(T*R control stations)
Supply and exhaust T*R
a b com a b com a com a b com a b com
9
8 10
7
5
3
1
com
6
4
2
10
9
7
5
3
1
8
6
4
2
SCPD2
SCM
MDC2
SMD2
SSD
STS/L
LCS
STR2
MRL2
GRC
Cylinder
switch
KBA
MN4E0
4GA/B
M4GA/B
MN4GA/B
F.R.
(Module unit)
Clean F.R.
Precision
regulator
Pressure/
Differential
pressure gauge
Electro
pneumatic
regulator
Flow control
valve
Auxiliary
valve
Joint/
tube
Pressure
sensor
Flow
sensor
Valve for
air blow
275

276
CAUTION
The external pilot type has a separate pilot air supply. A 6 push
in joint is used to supply the pilot air, so make sure that the piping
connection position is correct. Malfunctions could occur if
the piping is incorrect.
Port display
CAUTION
The surge suppressor enclosed with the solenoid valve is used
to protect the output contact for that solenoid valve drive.
There is no protective effect to the other peripheral devices,
and instead, the devices could be affected by the surge
(damage, malfunction). In addition, the surge generated by
other devices could be absorbed, and result in damage or
accidents such as burning. Observe the following points.
(1) The surge suppressor functions to limit a solenoid valve
surge voltage, which can reach several hundred V, to a low
voltage level that the output contact can withstand. This
may be insufficient for the output circuit being used, and
could result in damage or malfunction. Always check
whether the surge suppressor is acceptable according to
the surge voltage limit value of the solenoid valve being
used, the withstand voltage and circuit configuration of the
output device, and the degree of the return delay time.
Provide separate surge measures if necessary. The inverse
voltage surge generated when OFF can be suppressed to
the following levels.
Specified voltage Backward voltage value when OFF
12VDC
24VDC
Pneumatic components
Safety precautions
Always read this section before starting use.
Refer to Page 262 to Page 265 for general precautions.
Pilot operated 3, 4 port valve MN3E0/MN4E0 series
Applications Display (ISO standards)
Pilot air Pilot air supplying port 12/14
The A/B ports and the R port cannot be pressurized.
Caution for using type with two 3-port valves integrated type
When two 3-port valves are built-in, the valving element is
operated with the main (P port) supply pressure.
* Make sure that the main pressure (P port) is higher than
the pilot pressure (PA port).
* Make sure that the main pressure (P port) does not drop
below 0.2MPa.
Approx. 27V
Approx. 47V
External pilot piping port
External pilot 12/14 (PA) port
Surge suppressor
Exhaust 3 (R) port
Air supply 1 (P) port
The external pilot supply port is the 6 push in
joint on the top of the supply/exhaust block.
(2) When using the NPN type output unit, the voltage given in
the left table and a surge voltage equivalent to the power
voltage could be applied on the output transistor. Always increase
the contact protection circuits in this case.
Programmable
controller side
Solenoid valve side
Programmable
controller side
Solenoid valve side

(3) If another device or solenoid valve is connected in parallel to
the solenoid valve, the inverse voltage surge generated when
OFF will be applied on those devices. Even when using the
solenoid valve for surge suppressor for 24VDC, the surge
voltage may reach minus several ten V depending on the
model. This inverse polarity voltage could damage or cause
the other devices connected in parallel to malfunction. Avoid
parallel connection with a device having a weak inverse polarity
voltage (example: LED indicator).
When driving several solenoid valves in parallel, the surge
from the other solenoid valves could flow into the surge suppressor
for one solenoid valve with surge suppressor, causing
that surge suppressor to burn.
Even when driving several solenoid valves with surge suppressors,
the surge current will concentrate to the surge suppressor
having the lowest limit voltage, and could result in
similar burning. Even if the solenoid valve type is the same,
CAUTION
CAUTION
The 4E Series is dedicated for mounting on the DIN rail. The
manifold could drop off or be damaged if not installed correctly.
If the manifold weights more than 1kg, or when using
in an environment with vibration or impact, fix the DIN rail
onto the mounting surface at a 50 to 100mm interval, and
confirm that there is no problem with the mounting state before
starting operation. Use the specifications to calculate the
weight. Also calculate the weight of the other devices which
are mounted. (Refer to page 280 for the weights.)
SCPD2
SCM
the surge suppressor limit voltage is inconsistent and in the
worst case could result in burning. Avoid parallel drive of sev- MDC2
eral solenoid valves.
(4) The surge suppressor incorporated in the solenoid valve SMD2
will often be short-circuited if it is damaged by an excessive
voltage or excessive current from the other solenoid SSD
valves. After damaged, a large current will flow when the
output turns ON, and in the worst case, the output circuit or STS/L
solenoid valve could be damaged, or fires could start. Do
not leave the solenoid valve energized in the faulty state. LCS
Do not energize while the products failure.
Provide an overcurrent protection circuit on the power or
STR2
drive circuit, or use a power supply with overcurrent
protection so that a large current does not flow continu- MRL2
ously.
GRC
Port filter
The port filter prevents the entry of foreign matter, and prevents trouble from occurring in the manifold (mesh diameter 0.3mm). This
does not improve the quality of the compressed air, so always read the Warnings and Precautions given on pages 262 to 265, and
mount, install and adjust the filter.
Do not remove or press the port filter with force as it could deform or trouble could occur.
If dirt or foreign matter is found on the filter surface, blow lightly with compressed air, or remove with tweezers, etc.
Supply/exhaust block
Filter
Valve block
AB port filter
(Option)
Mounting the manifold
DIN rail
Set screw
Cylinder
switch
KBA
MN4E0
4GA/B
M4GA/B
MN4GA/B
F.R.
(Module unit)
Clean F.R.
Precision
regulator
Pressure/
Differential
pressure gauge
Electro
pneumatic
regulator
Flow control
valve
Auxiliary
valve
Joint/
tube
Pressure
sensor
Flow
sensor
Valve for
air blow
277

278
CAUTION
Type with low heat-generating, energy saving circuit
Never use this valve in an environment where the vibration and impact exceed the specifications.
The valve could malfunction.
Individual specifications for type with low heat-generating, energy saving circuit
Energizing current A
Power consumption W
Descriptions
At starting
At holding
At starting
At holding
Pneumatic components
Safety precautions
Always read this section before starting use.
Refer to Page 262 to 265 for general precautions.
Pilot operated 3, 4 port valve MN3E0/MN4E0 series
With the type with low heat-generating, energy
saving circuit, the current limit circuit is built into
the valve block. The current valve when the coil
is suctioned and held is lowered with this
structure.
Only the plus common polarity is available.
24DC
12DC
24DC
12DC
24DC
12DC
24DC
12DC
0.025
0.050
0.013
0.025
0.6
0.3
+
-
V
I
Control circuit
50ms

280
Structure and materials restriction
P7 series
Common specifications
Descriptions
Content
Manifold structure
Block manifold
Manifold type
Common supply/common exhaust check valve integrated Note 1
Working fluid
Compressed air
Valve type, operator type
Pilot operated soft spool valve
Max. working pressure MPa
0.7
Min. working pressure MPa
0.2
Withstanding pressure MPa
1.05
Ambient temperature
5 to 55
Fluid temperature
5 to 55
Manual override
Lock/non-locking common type
Lubrication
Not required
Protective structure
Dust proof
Vibration/impact m/s 50 or less/300 or less
Not to be subject to corrosive gas
2
Working environment
Note 1 The check valve blocks the back pressure from adjacent air devices,
etc. However, the structure does not allow the pressure seal to be
held continuously so do not use for purposes other than the back
pressure block.
Individual specifications
Descriptions
Port 3 port valve
Port size
Port A/B
Port P/R
External pilot port
2 position Single
20 or less
Response time Double
12 or less
Note 1 ms 3 position
-
Mass
Wiring block
Valve block
End block
DIN rail
(g)
Supply/exhaust block
(g)
Joint lateral
Joint up
(g)
(g)
(g)
Structure
Exhaust
treatment
Joint lateral
Joint up
Model No.
P70
D sub-connector type
T30
67
Q/QZ
64
90
2 position single
47.5
54.5
ER/EL
40
-
0.9g/mm
Reduced wiring block manifold
Pilot operated 3, 4 port valve
MN3E0 / MN4E0 Series
Refer to [European standards products
guides] for details.
Note 1 The response time is for the 0.5MPa supply pressure, pre-lubricating type.
Note 2 The valve with two 3-port valves uses the main pressure to operate the valving element, and cannot be used with the external pilot.
Make sure that the supply air flow is sufficient so that the supply pressure does not drop below the minimum working pressure due to the operation of
the connected load (air operated valve), etc.
Flat cable connector type
T5*
59
QK
69
94
2 position double
52
59
Electrical specifications
Descriptions
Rated voltage
Rated voltage fluctuation range
24VDC
Rated current A
12VDC
24VDC
Power consumption W
12VDC
Heat resistance class
Surge protective circuit
Indicator
Note 2 The values in parentheses are for the type with low heat-generating,
energy saving circuit.
When using the valve block with individual power supply function
(AUX) or type with low heat-generating, energy saving circuit,
energizing is limited to the plus common.
4 port valve
Two 3 port valves integrated type Note 2
4, 6 push-in joint, M5, fiber tube
6, 8 push-in joint
6 push-in joint
-
20 or less
12 or less
12 or less
-
20 or less
-
Intermediate wiring block
TM1A TM1C TM52
32 32 34
QKZ
79
98
3 position
53.5
60.5
Refer to a file list of Ending 75.
Content
12, 24 DC
10%
(+10%, -5% when using serial transmission)
0.025 (0.013) Note 2
0.05 (0.025) Note 2
0.6 (0.3) Note 2
B
Surge suppressor
LED
QX
56
62
Two 3 port valves integrated type
52
59
Serial transmission
T6*
205
T7*
128
QKX
61
66

Flow characteristics
Manifold energizing maximum station number.
Descriptions
D sub-connector type T30
(25 pins)
T30R
T50
T50R
T51
Flat cable
T51R
connector type T52
T52R
T53
T53R
TM1A
Intermediate wiring
TM1C
block type
TM52
T6A0
T6A1
T6C0
T6C1
Serial transmission type T6E0
(With unit)
T6E1
T6J0
T6J1
T6K1
T6G1
T7D1
Serial transmission type T7D2
(Adherence type) T7G1
T7G2
Note 1 RITS connector 6P (1473562-6) Tyco Electronics
Slave unit specifications
Descriptions
T6C1
T6C0
D sub-connector type left spec.
D sub-connector type right spec.
20 pin flat cable connector left spec. (with power supply terminal)
20 pin flat cable connector right spec. (with power supply terminal)
20 pin flat cable connector left spec. (Without power supply terminal)
20 pin flat cable connector right spec. (Without power supply terminal)
10 pin flat cable connector left spec. (Without power supply terminal)
10 pin flat cable connector right spec. (Without power supply terminal)
26 pin flat cable connector left spec. (Without power supply terminal)
26 pin flat cable connector right spec. (Without power supply terminal)
RITS connector 6P X 2 Note 1
RITS connector 6P Note 1
10 pin flat cable connector
UNIWIRE SYSTEM 8 points
UNIWIRE SYSTEM 16 points
OMRON CompoBus/S 8 point
OMRON CompoBus/S 16 point
SUNX S-LINK 8 point
SUNX S-LINK 16 point
UNIWIRE H system 8 points
UNIWIRE H system 16 points
KEYENCE KZ-R
CC-Link
DeviceNet 16 point
DeviceNet 32 point
CC-Link 16 point
CC-Link 32 point
T6G1 Note 1 T6K1
C [dm 3 /(s·bar)]
3 port valve 2 position
0.54
0.12
2 position
0.54
0.12
4 port valve All ports closed
0.50
0.08
3 position A/B/R connection
0.54
0.12
P/A/B connection
0.50
0.11
Two 3 port valves integrated type 2 position
0.50
0.16
Note: The conversion for the effective sectional area S and acoustic velocity conductance C is S 5.0 X C.
T6A1
T6A0
Double
solenoid
(Double wiring)
12 stations
12 stations
8 stations
8 stations
9 stations
9 stations
4 stations
4 stations
12 stations
12 stations
5 stations
2 stations
4 stations
4 stations
8 stations
4 stations
8 stations
4 stations
8 stations
4 stations
8 stations
8 stations
8 stations
8 stations
16 stations
8 stations
16 stations
MN3E0 / MN4E0 Series
Single
solenoid
24 stations
24 stations
16 stations
16 stations
18 stations
18 stations
8 stations
8 stations
24 stations
24 stations
10 stations
5 stations
8 stations
8 stations
16 stations
8 stations
16 stations
8 stations
16 stations
8 stations
16 stations
16 stations
16 stations
16 stations
32 stations
16 stations
32 stations
Mix manifold
(Solenoid number)
24 points
24 points
16 points
16 points
18 points
18 points
8 points
8 points
24 points
24 points
10 points
5 points
8 points
8 points
16 points
8 points
16 points
8 points
16 points
8 points
16 points
16 points
16 points
16 points
32 points
16 points
32 points
Specifications
Power
voltage
Unit side
Valve side
Communication side
24V DC 10%
24V DC+10%-5%
-
24VDC
+10%-5%
-
24VDC 10%
24VDC +10%-5%
11 to 25VDC
-
Unit side
Current
consumption
Valve side
T6C1: 60mA or less
100mA or less
T6C0: 40mA or less
(When all output ON)
(When all output ON)
15mA or less (when all points are OFF.)
100mA or less
(When all output ON)
Consumption current
of valve not included
60mA or less
(When all output ON)
Consumption current
of valve not included
T7D1: 60mA or less T7G1: 65mA or less
T7D2: 85mA or less T7G2: 90mA or less
(When all output ON) (When all output ON)
15mA or less (when all points are OFF.)
Communication side
-
-
50mA or less
-
Output no.
T6C1: 16 point
T6C0: 8 point
16 points
T6A1:16 point
T6A0: 8 point
T6J1: 16 point
T6J0: 8 point
T6E1: 16 point
T6E0: 8 point
T7D1: 16 point
T7D2: 32 point
T7G1: 16 point
T7G2: 32 point
T6C1: 2 node address
T6A1: T6J1:
Occupied number
(8 points mode)
T6C0: 1 node address
1 station
Output 16 points
1 channel
T6A0:
Output 16 points
T6J0:
T6E1: FAN-in: 3
T6E0: FAN-in: 3
T7D1: 2 byte
T7D2: 4 byte
T7G1: 1 station
T7G2: 1 station
(8 points mode)
Output 8 points Output 8 points
Note 3
T6J1
T6J0
T6E1
T6E0
T7D1 Note 2
T7D2
Note 1: CC-Link is version 1.10.
Note 2: Contact CKD for information on the EDS file.(EDS file: Text file of parameters for communicating with each company's master.)
Note 3: FAN-In indicates the input capacity from the D-G line.(Required to calculate the number of connected units.)
b
Page
282
284
T7G1 Note 1
T7G2
281
SCPD2
SCM
MDC2
SMD2
SSD
STS/L
LCS
STR2
MRL2
GRC
Cylinder
switch
KBA
MN4E0
4GA/B
M4GA/B
MN4GA/B
F.R.
(Module unit)
Clean F.R.
Precision
regulator
Pressure/
Differential
pressure gauge
Electro
pneumatic
regulator
Flow control
valve
Auxiliary
valve
Joint/
tube
Pressure
sensor
Flow
sensor
Valve for
air blow

MN3E0 / MN4E0 Series
282
How to order manifold
Valve block discrete
N 3 E0 66 0 C4
Block manifold
F 3
M N 4 E0 1 0 C4 T53 W F 5 3
DIN rail
mount type
C Port size
D sub/flat cable connector
3 port valve
P70
P70
D Wiring F Option H Voltage
method G Station No. Clean room specifications
E Terminal/connector pin array
Two 3 port valves integrated type (Note 1)
4 port valve
*Refer to Page 284 for serial transmission type.
*Always fill out the manifold specification
sheet (Page 319).
Symbol Descriptions
A Valve type
A Valve type
3 3 port valve, Two 3 port valves integrated type
4 4 port valve, 3/ 4 port valve mix
B Solenoid position
B Solenoid position
(Note 6)
1
11
Single NC self reset type
Single NO self reset type
(Differential pressure spring offset)
2 Double NC self hold type
21 Double NO self hold type
66
A side valve: NC self reset type (Differential pressure return)
66S B side valve: NC self reset type (Differential pressure spring offset)
67
A side valve: NC self reset type (Differential pressure return)
67S B side valve: NO self reset type (Differential pressure spring offset)
76
A side valve: NO self reset type (Differential pressure return)
76S B side valve: NC self reset type (Differential pressure spring offset)
77
A side valve: NO self reset type (Differential pressure return)
77S B side valve: NO self reset type (Differential pressure spring offset)
1
2 position single self reset type (Differential pressure spring return)
2 2 position double self hold type
3 3 position all ports closed
4 3 position A/B/R connection
5 3 position P/A/B connection
8 Mix manifold
C Port size
C4 4 push-in joint lateral
C6 6 push-in joint lateral
Note on model no. selection
Note 1: The type with two 3-port valves cannot
be used with the external pilot type.
Contact CKD for the other working
conditions.
CL4
CL6
CF
M5
CX
4 push-in joint radial
6 push-in joint radial
Fiber tube joint
M5 female thread (non rotating)
Mix push-in joint
Note 2: Check the connector pin layout
(example) given on pages 300 to 307
D Wiring method
for the double wiring specifications. Refer to the following page for the wiring method.
When ordering a single valve block, the
double wiring designation is limited to E Terminal/connector pin array
the 2-position single for the 4-port
valve, and the 3-port valve.
Note 3: Energizing is limited to the plus
Blank
W
Standard wiring
Double wiring (Note 2)
common.
E and U cannot be selected
simultaneously.
Note 4: A filter (for preventing entry of foreign
F Option
E Low exoergic/energy saving circuit integrated type (Note 3)
U Individual electric supply function integrated (AUX) type (Note 3)
matter) is incorporated in the
supply/exhaust block's P port.
Note 5: Differs according to the
A
F
Ozone proof products
A/B port filter integrated (Note 4)
specifications.Check on page 281.
Note 6: Read the precautions given on page
274 for the self reset type
specifications.
G Station No.
1 1 station
to to
24 24 stations (Note 5)
H Voltage
3 24VDC
4 12VDC
Block manifold
Type
Valve block discrete
Block manifold

[List of wiring connection methods]
D Wiring method
T30 25 pin D sub-connector left spec.
T30R 25 pin D sub-connector right spec.
T50 20 pin flat cable connector left spec. (with power supply terminal) Note 7
T50R 20 pin flat cable connector right spec. (with power supply terminal) Note 7
T51 20 pin flat cable connector left spec.
T51R 20 pin flat cable connector right spec.
T52 10 pin flat cable connector left spec.
T52R 10 pin flat cable connector right spec.
T53 26 pin flat cable connector left spec.
T53R 26 pin flat cable connector right spec.
TM1A Intermediate wiring block RITS connector 6P X 2 Note 8
TM1C Intermediate wiring block RITS connector 6P Note 8
TM52 Intermediate wiring block 10 pin flat cable connector
TX Wiring block mix Note 9
Explanation of manifold components and part list
Example of key component models
Parts name
Wiring block
Valve block
List of related parts
Parts name
Cartridge type push-in joint
and related parts
Model no. (example)
N4E0-T30-P70
N4E020-C4-3-P70
N4E030-C4-3-P70
Valve block
Wiring block
(Fig. shows D sub-connector.)
Model no.
N4E0-JOINT-C4-P70
N4E0-JOINT-C6-P70
N4E0-JOINT-CL4-P70
N4E0-JOINT-CL6-P70
(Refer to Page 292 to 299 for details.)
Parts name
Supply/exhaust block
End block
MN3E0 / MN4E0 Series
D sub/flat cable connector manifold structure
Note 7: When mixing the connectors with the T50 or T50R type with power terminal,
only T50R can be combined with T50, and T50 with T50R.
Note 8: RITS connector 6P (1473562-6) Taiko Electronics Amp CO., Ltd.
Note 9: Two pieces are designated in the manifold specifications.Consult with CKD
for three or more.
Valve block
Intermediate wiring block
Parts name
Cartridge type push-in joint
and related parts
Supply/exhaust block
End block
Model no. (example)
N4E0-Q-8-P70
N4E0-ER-P70
Model no.
N4E0-JOINT-CF-P70
N4E0-JOINT-CPG-P70
283
SCPD2
SCM
MDC2
SMD2
SSD
STS/L
LCS
STR2
MRL2
GRC
Cylinder
switch
KBA
MN4E0
4GA/B
M4GA/B
MN4GA/B
F.R.
(Module unit)
Clean F.R.
Precision
regulator
Pressure/
Differential
pressure gauge
Electro
pneumatic
regulator
Flow control
valve
Auxiliary
valve
Joint/
tube
Pressure
sensor
Flow
sensor
Valve for
air blow

MN3E0 / MN4E0 Series
284
How to order manifold
Valve block discrete
N 3 E0 66 0 C4
Block manifold
M N 4 E0 1 0 C4 T6G1 W F 5 3
DIN rail
mount type
A Valve type
C Port size
B Solenoid position
(Note 6)
Note on model no. selection
Note 1: The type with two 3-port valves cannot
be used with the external pilot type.
Contact CKD for the other working
conditions.
Note 2: Check the connector pin layout
(example) given on pages 308 and 311
for the double wiring specifications.
When ordering a single valve block,
the double wiring designation is limited
to the 2-position single for the 4-port
valve, and the 3-port valve.
Note 3: Energizing is limited to the plus
common.
E and U cannot be selected
simultaneously.
Note 4: A filter (for preventing entry of foreign
matter) is incorporated in the
supply/exhaust block's P port.
Note 5: Differs according to the
specifications.Check on page 281.
Note 6: Read the precautions given on page
274 for the self reset type
specifications.
Serial transmission
F 3
Symbol Descriptions
A
Valve type
3
4
*Refer to Page 282 for D sub-connector/flat cable connector type.
3 port valve, Two 3 port valves integrated type
4 port valve, 3/4 port valve mix
3 port valve
P70
P70
D Wiring method F Option H Voltage
(Serial transmission) G Station No. Clean room
E Terminal/connector pin array specifications
B Solenoid position
1
11
Single NC self reset type
Single NO self reset type
(Differential pressure spring offset)
2 Double NC self hold type
21 Double NO self hold type
66
A side valve NC self reset type (Differential pressure return)
66S B side valve NC self reset type (Differential pressure spring offset)
67
A side valve NC self reset type (Differential pressure return)
67S B side valve NO self reset type (Differential pressure spring offset)
76
A side valve NO self reset type (Differential pressure return)
76S B side valve NC self reset type (Differential pressure spring offset)
77
A side valve NO self reset type (Differential pressure return)
77S B side valve NO self reset type (Differential pressure spring offset)
1
2 position single self reset type (Differential pressure spring offset)
2 2 position double self hold type
3 3 position all ports closed
4 3 position A/B/R connection
5 3 position P/A/B connection
8 Mix manifold
C Port size
C4 4 push-in joint lateral
C6 6 push-in joint lateral
CL4 4 push-in joint radial
CL6 6 push-in joint radial
CF Fiber tube joint
M5 M5 female thread (non rotating)
CX Mix push-in joint
D Wiring method
Refer to the following page for the wiring method.
E Terminal/connector pin array
Blank Standard wiring
W Double wiring (Note 2)
F Option
E
U
A
F
4 port valve Two 3 port valves integrated type (Note 1)
Low exoergic/energy saving circuit integrated type (Note 3)
Individual electric supply function integrated (AUX) type (Note 3)
Ozone proof products
A/B port filter integrated (Note 4)
G Station No.
1 1 station
to to
32 32 stations (Note 5)
H Voltage
3 24VDC
*Always fill out the manifold specification
sheet (Page 319).
Block manifold
Type
Valve block discrete
Block manifold

[List of wiring connection methods]
D Wiring method
T6A0 UNIWIRE SYSTEM 8 points
T6A1 UNIWIRE SYSTEM 16 points
T6C0 OMRON CompoBus/S 8 points
T6C1 OMRON CompoBus/S 16 points
T6E0 SUNX S-LINK 8 points
T6E1 SUNX S-LINK 16 points
T6J0 UNIWIRE H system 8 points
T6J1 UNIWIRE H system 16 points
T6K1 KEYENCE KZ-R
T6G1 CC-Link
T7D1 Close range type Device Net 16 points
T7D2 Close range type Device Net 32 points
T7G1 Close range type CC-Link 16 points
T7G2
Close range type CC-Link 32 points
Manifold components explanation and parts list
Example of main components model no. (Refer to Page 292 to 299 for details.)
Parts name
Wiring block
Valve block
Related parts list
Parts name
Cartridge type push-in joint
and related parts
Model no. (example)
N4E0-T6G1-P70
N4E020-C4-3-P70
N4E030-C4-3-P70
Model No.
N4E0-JOINT-C4-P70
N4E0-JOINT-C6-P70
N4E0-JOINT-CL4-P70
N4E0-JOINT-CL6-P70
Valve block
Wiring block
(Serial transmission slave unit T6*)
Valve block
Parts name
Supply/exhaust block
End block
Parts name
Cartridge type push-in joint
and related parts
MN3E0 / MN4E0 Series
Serial transmission manifold structure
Supply/exhaust block
End block
Wiring block
(Serial transmission slave unit
(close range type) T7*)
Model no. (example)
N4E0-Q-8-P70
N4E0-ER-P70
Model No.
N4E0-JOINT-CF-P70
N4E0-JOINT-CPG-P70
285
SCPD2
SCM
MDC2
SMD2
SSD
STS/L
LCS
STR2
MRL2
GRC
Cylinder
switch
KBA
MN4E0
4GA/B
M4GA/B
MN4GA/B
F.R.
(Module unit)
Clean F.R.
Precision
regulator
Pressure/
Differential
pressure gauge
Electro
pneumatic
regulator
Flow control
valve
Auxiliary
valve
Joint/
tube
Pressure
sensor
Flow
sensor
Valve for
air blow

MN 3 4E0-T30 Series
Reduced wiring block manifold D sub-connector type
286
Dimensions
3
MN 4 E0*-*-T30*-*-*-P70
D sub-connector (T30) type
* The D-sub connector can be
faced to the top or bottom.
* Refer to page 291 for details
on changing the connector direction.
Manifold length
L1 mm
Mounting rail length
L2 mm
Mounting rail pitch
L3 mm
32.8
3
MN 4 E0*-*-T30R*-*-*-P70
D sub-connector right type
(T30R)
34.5
77
46.5 (3 position)
40
20.5 13.7
35
5.5
6.9 (M5 cartridge)
90˚
Push-in joint 4, 6, fiber tube,
M5 cartridge (selection) 2 (B) port
Push-in joint 4, 6, fiber tube,
M5 cartridge (selection) 4 (A) port
12.5 8 18.5 10 10
Indicator light
15.5 6.6 9.3
a
a a b a b a
L1=(10 X n)+(15.5 X m)+42.4
(n: valve block Station No., m: Number of Supply/exhaust block)
L3=L2-12.5
L2
Manual override
Connection key
*Refer to page 290 for the outline dimension drawings of the L type push in joint for
valve block (radial), L type push in joint for air fiber joint and supply/exhaust block (radial),
and type with individual power supply function (AUX).
15.7 17
49.5
27.5
No.
1
2
3
4
40
Push-in joint 6, 8 (selection)
3 (R) port
Push-in joint 6, 8 (selection)
1 (P) port
0.5
Part name
Wiring block T30
Valve block
Supply/exhaust block
End block
to 75 to 87.5 to 100 to 112.5 to 125 to 137.5 to 150 to 162.5 to 175 to 187.5 to 200 to 212.5 to 225 to 237.5 to 250 to 262.5 to 275 to 287.5 to 300 to 312.5 to 325 to 337.5 to 350
100
87.5
112.5
100
125
112.5
137.5
125
150
137.5
40
0.5
162.5
150
9.1 (push-in joint 4)
10.7 (push-in joint 6)
175
162.5
77
9.1 (push-in joint 4)
10.7 (push-in joint 6)
46.5 (3 position)
Push-in joint 4, 6, fiber tube,
M5 cartridge (selection) 2 (B) port
Push-in joint 4, 6, fiber tube,
M5 cartridge (selection) 4 (A) port
187.5
175
35
5.5
6.9 (M5 cartridge)
13.7
20.5
200
187.5
Indicator light
12.5 9.3 6 10 10
15.5 19.1 8 Manual override section
212.5
200
225
212.5
1 2 3 4
L 1=(10 X n)+(15.5 X m)+42.4
(n: valve block Station No., m: Number of Supply/exhaust block)
L 3 =L 2 -12.5
237.5
225
250
237.5
L3
1 2 3 4
262.5
250
275
262.5
90˚
287.5
275
Connection key
300
287.5
17
15.7
14 (push-in joint 6)
14.8 (push-in joint 8)
49.5
27.5
14 (push-in joint 6)
14.8 (push-in joint 8)
312.5
300
34.5
325
312.5
No.
1
2
3
4
Push-in joint 6, 8 (selection)
3 (R) port
Push-in joint 6, 8 (selection)
1 (P) port
337.5
325
32.8
Part name
End block
Valve block
Supply/exhaust block
Wiring block T30R
350
337.5
362.5
350
375
362.5

Dimensions
3
MN 4 E0*-*-T50*-*-*-P70
Flat cable connector left type (T50)
Manifold length
L1 mm
Mounting rail length
L2 mm
Mounting rail pitch
L3 mm
33.7
3
MN 4 E0*-*-T50R*-*-*-P70
Flat cable connector right type (T50R)
38.2
77
46.5 (3 position)
40
20.5 13.7
35
5.5
6.9 (M5 cartridge)
Push-in joint 4, 6, fiber tube,
M5 cartridge (selection) 2 (B) port
Push-in joint 4, 6, fiber tube,
M5 cartridge (selection) 4 (A) port
MN 3 4E0-T50 Series
Reduced wiring block manifold; flat cable connector type
*T51, T52 and T53 are also available.The outline dimensions are the same as T50.
Refer to page 288 for the connector dimensions.
12.5 8 18.5 10 10 15.5 6.6
a
a a b a b a
L3=L2-12.5
Indicator light
L1=(10 X n)+(15.5 X m)+42.4
(n: Valve block Station No., m: Number of Supply/exhaust block)
L2
1 2 3 4
9.3
Manual override section
Connection key
15.7 17
49.5
27.5
Push-in joint 6, 8 (selection)
3 (R) port
Push-in joint 6, 8 (selection)
1 (P) port
*Refer to page 290 for the outline dimension drawings of the L type push in joint for
valve block (radial) and L type push in joint for air fiber joint and supply/exhaust block (radial).
*The power supply connector can be used with T50 to supply power to the PLC output unit.
Refer to page 290 for the dimensions when the connector is connected, and to page 301
for the wiring methods and precautions for wiring.
Indicator light
12.5 9.3 6 10 10
15.5 19.1 8 Manual override section
33.7
No.
1
2
3
4
40
0.5
Part name
Wiring block T5*
Valve block
Supply/exhaust block
End block
to 75 to 87.5 to 100 to 112.5 to 125 to 137.5 to 150 to 162.5 to 175 to 187.5 to 200 to 212.5 to 225 to 237.5 to 250 to 262.5 to 275 to 287.5 to 300 to 312.5 to 325 to 337.5 to 350
100
87.5
112.5
100
125
112.5
137.5
125
40
0.5
150
137.5
162.5
150
9.1 (push-in joint 4)
10.7 (push-in joint 6)
175
77
9.1 (push-in joint 4)
10.7 (push-in joint 6)
162.5
6.9 (M5 cartridge) 35
5.5
46.5 (3 position)
20.5 13.7
Push-in joint 4, 6, fiber tube,
M5 cartridge (selection) 2 (B) port
Push-in joint 4, 6, fiber tube,
M5 cartridge (selection) 4 (A) port
187.5
175
200
187.5
212.5
200
a a a b a b a
L 1=(10 X n)+(15.5 X m)+42.4
(n: Valve block Station No., m: Number of Supply/exhaust block)
L 3 =L 2 -12.5
225
212.5
237.5
225
L 3
1 2 3 4
250
237.5
262.5
250
275
262.5
287.5
275
300
287.5
15.7 17
14 (push-in joint 6)
14.8 (push-in joint 8)
Connection key
27.5 49.5
14 (push-in joint 6)
14.8 (push-in joint 8)
312.5
300
30.9
325
312.5
No.
1
2
3
4
Push-in joint 6, 8 (selection)
3 (R) port
Push-in joint 6, 8 (selection)
1 (P) port
337.5
325
Part name
End block
Valve block
Supply/exhaust block
Wiring block T50R
350
337.5
362.5
350
375
362.5
287
SCPD2
SCM
MDC2
SMD2
SSD
STS/L
LCS
STR2
MRL2
GRC
Cylinder
switch
KBA
MN4E0
4GA/B
M4GA/B
MN4GA/B
F.R.
(Module unit)
Clean F.R.
Precision
regulator
Pressure/
Differential
pressure gauge
Electro
pneumatic
regulator
Flow control
valve
Auxiliary
valve
Joint/
tube
Pressure
sensor
Flow
sensor
Valve for
air blow

MN 3 4E0-TM Series
Intermediate/right wiring block
Dimensions
288
Flat cable connector (T51R/T52R/T53R): connector section dimensions
T51R T52R T53R
19.1 8
43.3
40
TM1C
TM52
Manifold length
L1 mm
Mounting rail length
L2 mm
Mounting rail pitch
L3 mm
to 75 to 87.5 to 100 to 112.5 to 125 to 137.5 to 150 to 162.5 to 175 to 187.5 to 200 to 212.5 to 225 to 237.5 to 250 to 262.5 to 275 to 287.5 to 300 to 312.5 to 325 to 337.5 to 350
100
87.5
30.9
112.5
100
12
57.3
40 12
125
112.5
33.7
3
A
MN 4 E0*-*-TM1 C *-*-*-P70
RITS connector intermediate wiring specification (TM1 )
3
MN 4 E0*-*-TM52*-*-*-P70
10-pin flat cable connector intermediate wiring specification (TM52)
137.5
125
43.3
40
0.5
TM1A
150
137.5
162.5
150
175
77
9.1 (push-in joint 4)
10.7 (push-in joint 6)
162.5
35
5.5
20.5 13.7
187.5
175
12.5
Push-in joint 4, 6, fiber tube,
M5 cartridge (selection) 2 (B) port
Push-in joint 4, 6, fiber tube,
M5 cartridge (selection) 4 (A) port
200
187.5
9.3 6 12 10
212.5
200
225
212.5
L3=L2-12.5
237.5
225
AUX power supply input
Connection key 15.5 6.6 9.3
L1=(10 X n)+(15.5 X m)+43.2
(n: Number of valve block, m: number of Supply/exhaust block)
L2
4 1 2 3 5
250
237.5
262.5
250
275
262.5
*Right connector type is shown in this drawing.
Dimension are the same for the left connector type.
19.1 8
33.7
19.1 8 33.7
A
C
36.6
287.5
275
8
Manual override section
300
287.5
49.5
27.5
14.0 (push-in joint 6)
14.8 (push-in joint 8)
15.7 17
34.5
312.5
300
325
312.5
No.
1
2
3
4
5
337.5
325
Part name
Push-in joint 6, 8 (selection)
3 (R) port
Push-in joint 6, 8 (selection)
1 (P) port
Intermediate wiring block TM1A
Valve block
Supply/exhaust block
End block
End block
350
337.5
362.5
350
375
362.5

MN3E0 / MN4E0 Series
290
Dimensions
Various piping block section (common for all types)
Valve block
Radial push-in joint (upward)
4 (CL4) 6 (CL6)
8.5
10.5
24
34.5 36.5
48
50
Supply/exhaust block
Radial push-in joint (upward)
6 (CL6) 8 (CL8)
34
51
7
17
13
36
12
11.5
36.5
53.5
9.5
10.5
Feed connector
(attached to the product)
18
Applicable wire
AWG28-20
25
15
40
2.9
Fiber tube joint (CF)
Supply/exhaust block for external pilot
48.5
8.5
Upward piping Sideways pipe
T50 load dispatching connector joint dimension Individual electric supply function integrated (AUX) type
34.5
45.8
AUX cover open
Socket insertion state
53
(18)
45.8

D-sub connector (T30, T30R): Changing the connector direction
Using in a horizontal state Using in a vertical state
Hold the lever and pull the connector
out horizontally.
Push the connector in horizontally
when storing it. (Fix the connector.)
Rotate the connector.
Always fix the connector in
the horizontal or vertical state
during use.
MN3E0 / MN4E0 Series
Reduced wiring block manifold; serial transmission type
Hold the lever and pull the
connector out vertically.
Push the connector in
horizontally when storing
it. (Fix the connector.)
291
SCPD2
SCM
MDC2
SMD2
SSD
STS/L
LCS
STR2
MRL2
GRC
Cylinder
switch
KBA
MN4E0
4GA/B
M4GA/B
MN4GA/B
F.R.
(Module unit)
Clean F.R.
Precision
regulator
Pressure/
Differential
pressure gauge
Electro
pneumatic
regulator
Flow control
valve
Auxiliary
valve
Joint/
tube
Pressure
sensor
Flow
sensor
Valve for
air blow

H
I
N4E0 JOINT C4 P70
N4E0 Q JOINT 8
MN3E0 / MN4E0 Series
Block configurations
This joint is dedicated for the valve block and supply/exhaust block PA port.
This cannot be used on the supply/exhaust block's P or R port.
Use the above valve block joint for the pilot pressure supply (for PA).
A Port size
A Port size
Symbol Dimension Symbol Dimension
C4 Push in cartridge joint for 4 tube
6 Push in cartridge joint for 6 tube
C6 Push in cartridge joint for 6 tube
CL4
Elbow type push-in cartridge
joint for 4 tube
8 Push in cartridge joint for 8 tube
CL6
Short elbow type push-in
cartridge joint for 6 tube
6L
Short elbow type push-in
cartridge joint for 6 tube
CLL4
CLL6
CF
Long elbow type push-in
cartridge joint for 4 tube
Long elbow type push-in
cartridge joint for 6 tube
Cartridge joint for 1.8 tube
8L
6LL
Long elbow type push-in
cartridge joint for 8 tube
Push in cartridge joint
for 6 tube
CPG
CP
CM5
CMB
CMP
End block
Mount the block on the left or right side with the piping port facing forward.
N4E0 ER
Model No.
Plug cartridge
A Type
A Type
EL Left side installation
ER Right side installation
Related products
P70
Joint fixing plate
(screw attached for end plate fixing)
M5 cartridge joint
(M5 joint non-rotating plate: CMP required for fixing)
Plug cartridge for M5
(M5 joint non-rotating plate: CMP required for fixing)
M5 joint non-rotating plate
(screw attached for end plate fixing)
Clean room specifications (Clean packing)
A Port size
Clean room specifications
(Clean packing)
8LL
P
N4E0-EL-P70 N4E0-ER-P70
Push in cartridge joint Push in cartridge joint for Supply/exhaust block
Long elbow type push in
cartridge joint for 8 tube
Joint fixing plate
(screw attached for end plate fixing)
A Port size
P70
Clean room
specifications
(Clean packing)
297
SCPD2
SCM
MDC2
SMD2
SSD
STS/L
LCS
STR2
MRL2
GRC
Cylinder
switch
KBA
MN4E0
4GA/B
M4GA/B
MN4GA/B
F.R.
(Module unit)
Clean F.R.
Precision
regulator
Pressure/
Differential
pressure gauge
Electro
pneumatic
regulator
Flow control
valve
Auxiliary
valve
Joint/
tube
Pressure
sensor
Flow
sensor
Valve for
air blow

MN3E0 / MN4E0 Series
298
I
Related products
Socket assembly for power supply
N4E0 SOCKET D 300 P70
N4E0 T50
A Type
Note 1
B Lead wire
length
Connector for wiring block TM1 (RITS connector 6P)
N4E0 TM CONNECTOR P70
Feed connector for T50 power supply terminal
Applicable wire AWG28-20/0.08 to 0.5mm
[ ]
2
(Commercial item WAGO connector plug 733-102)
Repair fuse for T50
( )
Clean room specifications
(Clean packing)
CONNECTOR P70
4T9-LM16-P70 Clean room specifications
( (Clean packing) )
[ Daito Communication Apparatus Co., Ltd. LM16 ]
Clean room specifications (Clean packing)
A Type
S 2 wire (for single solenoid)
D 3 wire (for double solenoid)
B Lead wire length
300 300m
500 500m
1000 1000m
"Note 1: The type without lead wire is 3MO-SOCKET-SET-P70.
(Three contacts enclosed, applicable wire diameter: AWG#26 to 28) "
Tyco Electronics RITS connector 6P (No. 1473562-6)
Clean room specifications
( (Clean packing) )
*Applicable wire (tinned wire recommended)
Coating finish diameter Wire cross-section area
mm mm
60/0.08
2
Wire number/wire diameter
wire/mm
1.0 to 1.15 0.2 to 0.3
"Contact the following company* for detailed specifications
on the applicable wire. "
* Taiko Electronics Amplifier CO., Ltd. Sales Dept.
*TEL 044-844-8058 URL http://www.amp.com/japan/
* Dedicated caulking tool 1596114-1

Cable with D sub-connector
How to order
N4T CABLE D 0 0 1
D sub-connector no. and conductor
N4T-CABLE-D00-(B)-P70
D sub-connector terminal no.
Color of isolator
Conductor I.D. Type of mark
Color of mark
D sub-connector terminal no.
Color of isolator
Conductor I.D. Type of mark
Color of mark
N4T-CABLE-D01-(B)-P70
D sub-connector terminal no.
Color of isolator
Conductor I.D. Type of mark
Color of mark
Mark tube no.
D sub-connector terminal no.
Color of isolator
Conductor I.D. Type of mark
Color of mark
Mark tube no.
A
Clean room specifications
(Clean packing)
User interface
B
P70
Cable length
D sub-connector
HDBB-25S
HIROSE ELECTRIC CO. LTD.
Plug case
HDB-CTF
HIROSE ELECTRIC CO. LTD.
A
B
Symbol
0
1
1
3
5
Model
N4T
Cut only
M3.5 round terminal
1m
3m
5m
1 2 3 4 5 6 7 8 9 10 11 12 13
Orange Orange Yellow Yellow Green Green Gray Gray White White Orange Orange Yellow
1 point 1 point 1 point 1 point 1 point 1 point 1 point 1 point 1 point 1 point 2 points 2 points 2 points
Black Red Black Red Black Red Black Red Black Red Black Red Black
14 15 16 17 18 19 20 21 22 23 24 25
Yellow Green Green Gray Gray White White Orange Orange Yellow Yellow Green
2 points 2 points 2 points 2 points 2 points 2 points 2 points 3 points 3 points 3 points 3 points 3 points
Red Black Red Black Red Black Red Black Red Black Red Black
D sub-connector
HDBB-25S
HIROSE ELECTRIC CO. LTD.
Plug case
HDB-CTF
HIROSE ELECTRIC CO. LTD.
*Up to 24 points can be used. Use surplus points after cutting off.
MN3E0 / MN4E0 Series
Block configurations
1 2 3 4 5 6 7 8 9 10 11 12 13
Orange Orange Yellow Yellow Green Green Gray Gray White White Orange Orange Yellow
1 point 1 point 1 point 1 point 1 point 1 point 1 point 1 point 1 point 1 point 2 points 2 points 2 points
Black Red Black Red Black Red Black Red Black Red Black Red Black
1 2 3 4 5 6 7 8 9 10 11 12 13
14 15 16 17 18 19 20 21 22 23 24 25
Yellow Green Green Gray Gray White White Orange Orange Yellow Yellow Green
2 points 2 points 2 points 2 points 2 points 2 points 2 points 3 points 3 points 3 points 3 points 3 points
Red Black Red Black Red Black Red Black Red Black Red Black
14 15 16 17 18 19 20 21 22 23 24 25
299
SCPD2
SCM
MDC2
SMD2
SSD
STS/L
LCS
STR2
MRL2
GRC
Cylinder
switch
KBA
MN4E0
4GA/B
M4GA/B
MN4GA/B
F.R.
(Module unit)
Clean F.R.
Precision
regulator
Pressure/
Differential
pressure gauge
Electro
pneumatic
regulator
Flow control
valve
Auxiliary
valve
Joint/
tube
Pressure
sensor
Flow
sensor
Valve for
air blow

MN3E0 / MN4E0 Series
300
D sub-connector type: Wiring method T30
T30 connector
Connectors used for T30 wiring method are generally
called D-sub connectors. These are commonly used
for FA and OA devices. The 25P type is an RS-232-C
Standards designated connector especially used for
personal computer communication.
Precautions for using T30 connector type
(1) Signal arrays of the PLC output unit must match
signal arrays of the valve side.
(2) The working power is 24 VDC or 12 VDC.
(3) The voltage may drop due to simultaneous
energizing or due to the cable length. Check that
the voltage drop in the solenoid is within 10% of
the rated voltage.
* When using the valve block with individual power
supply function (AUX) or type with low heat-generating,
energy saving circuit, energizing is limited to
the plus common.
T30 connector pin array (example)
* 1. The numbers in the valve No. 1a, 1b, 2a, 2b and so forth indicate
the first station and 2nd station. The alphabetic characters a and
b indicate the a side solenoid and the b side solenoid.
The maximum number of manifold stations differs according to
the model.
Refer to the specifications for each model.
For single
solenoid valve
Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13
Valve No. 1a 3a 5a 7a 9a 11a 13a 15a 17a 19a 21a 23a COM
Pin No. 14 15 16 17 18 19 20 21 22 23 24 25
Valve No. 2a 4a 6a 8a 10a 12a 14a 16a 18a 20a 22a 24a
Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13
For double Valve No. 1a 2a 3a 4a 5a 6a 7a 8a 9a 10a 11a 12a COM
solenoid valve
Pin No. 14 15 16 17 18 19 20 21 22 23 24 25
Valve No. 1b 2b 3b 4b 5b 6b 7b 8b 9b 10b 11b 12b
For mix
(both single and double)
Pin No.
Valve No.
Pin No.
1
1a
14
2
3a
15
3
4a
16
4
5a
17
5
7a
18
6 7 8 9 10 11 12 13
8a 10a 11b 12b 14a 15b 17a COM
19 20 21 22 23 24 25
Valve No. 2a 3b 4b 6a 7b 9a 11a 12a 13a 15a 16a 17b
*The manifold stations are counted as station 1, station 2, station 3 and so forth starting
from the wiring block side. The counting direction differs for the T30 and T30R types.
Station No.
Station 1 Station 2 Station 3 Station n Station n Station 3 Station 2 Station 1
1 2 3 4 5 6 7 8 9 10 11 12 13
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
Connector pin No.
14 15 16 17 18 19 20 21 22 23 24 25
1 2 3 4 5 6 7 8 9 10 11 12 13
1a 2a 3a 4a 5a 6a 7a 8a 9a 10a 11a 12a COM
14 15 16 17 18 19 20 21 22 23 24 25
(Void) (Void) (Void) (Void) (Void) (Void) (Void) (Void) (Void) (Void) (Void) (Void)
1 2 3 4 5 6 7 8 9 10 11 12 13
1a 2a 3a 4a 5a 6a 7a 8a 9a 10a 11a 12a COM
14 15 16 17 18 19 20 21 22 23 24 25
(Void) (Void) 3b 4b (Void) (Void) 7b (Void) (Void) (Void) 11b 12b

Flat cable connector type: Wiring method T50
T50 connector
The connector used for T50 wiring method complies
with MIL Standards (MIL-C-83503).
The flat cable pressure welding makes wiring work
easy.
Pin number assignment differs with the PLC manufacturer,
but function assignments are the same.
Connectors and the triangular mark ( ) shown below
as a reference. The mark is the reference for both
the plug and socket.
Precautions for T50 connector type
(1) Signal arrays of the PLC output unit must match
signal arrays of the valve side. Direct connections
with the PLC are limited. Use the dedicated cable
fore each PLC manufacturer.
(2) The working power is 24 VDC or 12 VDC.
(3) When connecting the T50 type to a general output
unit, use the + terminal (20, 10) of the 20P connector
as the + side common, and use the NPN transistor
output open collector type for the drive circuit.
(4) Do not connect this manifold to the input unit as
major faults could occur in this device and in peripherals.
Connect this manifold to the output unit.
(5) The voltage may drop due to simultaneous energizing
or due to the cable length. Check that the
voltage drop in the solenoid is within 10% of the
rated voltage.
T50 wiring method connector pin array (Example)
* 1. The numbers in the valve No. 1a, 1b, 2a, 2b and so forth indicate
the first station and 2nd station. The alphabetic characters a and
b indicate the a side solenoid and the b side solenoid.
The maximum number of manifold stations differs according to
the model.
Refer to the specifications for each model.
For single
solenoid valve
For double
solenoid valve
For mix
(both single and double)
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
*The manifold stations are counted as station 1, station 2, station 3 and so forth starting
from the wiring block side.The counting direction differs for the T50 and T50R types.
Station No. Station 1 Station 2 Station 3 Station n Station n Station 3 Station 2 Station 1
(Triangle)
11 12 13 14 15 16 17 18 19 20
1 2 3 4 5 6 7 8 9 10
Connector pin No.
a a a b a b a
11 12 13 14 15 16 17 18 19 20
9a
- power + power
10a 11a 12a 13a 14a 15a 16a supply supply
1 2 3 4 5 6 7 8 9 10
1a 2a 3a 4a 5a 6a 7a
- power + power
8a supply supply
11 12 13 14 15 16 17 18 19 20
5a 5b 6a 6b 7a 7b 8a
- power + power
8b supply supply
1 2 3 4 5 6 7 8 9 10
1a 1b 2a 2b 3a 3b 4a
- power + power
4b supply supply
11 12 13 14 15 16 17 18 19 20
7a 7b 8a 9a
- power + power
10a 10b 11a 11b supply supply
1 2 3 4 5 6 7 8 9 10
1a 2a 3a 3b 4a 4b 5a
- power + power
6a supply supply
+COM
+ -
Feed connector
WAG0 connector plug
733-102
(attached to the product)
Repair fuse
Daito Communication
Apparatus Co., Ltd. LM16
(CKD type 4T9-LM16)
Press down with
a narrow tool, etc.,
and insert the lead
wire.
AWG20 to 28
Polarity of feed connector How to wire
11 12 13 14 15 16 17 18 19 20
1 2 3 4 5 6 7 8 9 10
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
MN3E0 / MN4E0 Series
Technical data (1) Precautions for wiring
11 12 13 14 15 16 17 18 19 20
- power + power
5a (Void) 6a (Void) 7a (Void) 8a (Void) supply supply
1 2 3 4 5 6 7 8 9 10
- power + power
1a (Void) 2a (Void) 3a (Void) 4a (Void) supply supply
11 12 13 14 15 16 17 18 19 20
5a (Void) 6a (Void) 7a 7b
- power + power
8a (Void) supply supply
1 2 3 4 5 6 7 8 9 10
1a (Void) 2a (Void) 3a 3b 4a
- power + power
4b supply supply
301
SCPD2
SCM
MDC2
SMD2
SSD
STS/L
LCS
STR2
MRL2
GRC
Cylinder
switch
KBA
MN4E0
4GA/B
M4GA/B
MN4GA/B
F.R.
(Module unit)
Clean F.R.
Precision
regulator
Pressure/
Differential
pressure gauge
Electro
pneumatic
regulator
Flow control
valve
Auxiliary
valve
Joint/
tube
Pressure
sensor
Flow
sensor
Valve for
air blow

MN3E0 / MN4E0 Series
302
Flat cable connector type: Wiring method T51
T51 connector
The connector used for T50 wiring method complies
with MIL Standards (MIL-C-83503).
The flat cable pressure welding makes wiring work
easy.
Pin number assignment differs with the PLC manufacturer,
but function assignments are the same.
Connectors and the triangular mark ( ) shown below
as a reference. The ( ) mark is the reference for both
the plug and socket.
Precautions for (T51) connector type
(1) Signal arrays of the PLC output unit must match
signal arrays of the valve side.
(2) The working power is 24 VDC or 12 VDC.
(3) The T51 type is driven with a general output unit.
(4) Do not connect this manifold to the input unit as
major faults could occur in this device and in peripherals.
Connect this manifold to the output unit.
(5) The voltage may drop due to simultaneous energizing
or due to the cable length. Check that the
voltage drop in the solenoid is within 10% of the
rated voltage.
* When using the valve block with individual power
supply function (AUX) or type with low heat-generating,
energy saving circuit, energizing is limited to
the plus common.
T51 wiring method connector pin array (Example)
The numbers in the valve No. 1a, 1b, 2a, 2b and so forth indicate the first station and 2nd station. The alphabetic characters a and b
indicate the a side solenoid and the b side solenoid. The maximum number of manifold stations differs according to the model. Refer
to the specifications for each model.
Connector pin No.
For single
solenoid valve
For double
solenoid valve
For mix
(both single and double)
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
*The manifold stations are counted as station 1, station 2, station 3 and so forth starting
from the wiring block side. The counting direction differs for the T51 and T51R types.
a a a b a b a
Station No. Station 1 Station 2 Station 3 Station n Station n Station 3 Station 2 Station 1
COM
19
20
17
18
(Triangle)
11 9 7 5 3 1
19 17 15 13 11 9 7 5 3 1
COM 17a 15a 13a 11a 9a 7a 5a 3a 1a
20 18 16 14 12 10 8 6 4 2
COM 18a 16a 14a 12a 10a 8a 6a 4a 2a
19 17 15 13 11 9 7 5 3 1
COM 9a 8a 7a 6a 5a 4a 3a 2a 1a
20 18 16 14 12 10 8 6 4 2
COM 9b 8b 7b 6b 5b 4b 3b 2b 1b
19 17 15 13 11 9 7 5 3 1
COM 12a 11a 10a 8a 7a 5a 4a 3a 1a
20 18 16 14 12 10 8 6 4 2
COM 13a 11b 10b 9a 7b 6a 4b 3b 2a
15
16
13
14
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
12
10
19 17 15 13 11 9 7
20 18 16 14 12 10 8
8
6
4
5
6
2
3
4
1
2
19 17 15 13 11 9 7 5 3 1
COM 9a 8a 7a 6a 5a 4a 3a 2a 1a
20 18 16 14 12 10 8 6 4 2
COM (Void) (Void) (Void) (Void) (Void) (Void) (Void) (Void) (Void)
19 17 15 13 11 9 7 5 3 1
COM 9a 8a 7a 6a 5a 4a 3a 2a 1a
20 18 16 14 12 10 8 6 4 2
COM (Void) (Void) 7b (Void) (Void) 4b 3b (Void) (Void)

Flat cable connector type: Wiring method T52
T52 connector
The connector used for T52 wiring method complies
with MIL Standards (MIL-C-83503).
The flat cable pressure welding makes wiring work
easy.
Pin number assignment differs with the PLC manufacturer,
but function assignments are the same. Layout
using connectors and the triangular mark ( ) shown
below as a reference. The ( ) mark is the reference
for both the plug and socket.
* When using the valve block with individual power
supply function (AUX) or type with low heat-generating,
energy saving circuit, energizing is limited to
the plus common.
COM
T52 wiring method connector pin array (Example)
* The numbers in the valve No. 1a, 1b, 2a, 2b and so forth indicate
the first station and 2nd station. The alphabetic characters
a and b indicate the a side solenoid and the b side solenoid.
The maximum number of manifold stations differs according
to the model.
Refer to the specifications for each model.
For single solenoid valve
For double solenoid valve
Connector pin array diagram
(TOP VIEW)
and internal circuit diagram
Mark
8 6 4 2
For mix (both single and double)
9
10
7 5 3 1
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
Precautions for (T52) connector type
(1) Signal arrays of the PLC output unit must match
signal arrays of the valve side.
(2) The working power is 24 VDC or 12 VDC.
(3) The T52 type is driven with a general output unit.
(4) Do not connect this manifold to the input unit as
major faults could occur in this device and in peripherals.
Connect this manifold to the output unit.
(5) The voltage may drop due to simultaneous energizing
or due to the cable length. Check that the
voltage drop in the solenoid is within 10% of the
rated voltage.
*The manifold stations are counted as station 1, station 2, station 3 and so forth starting
from the wiring block side. The counting direction differs for the T52 and T52R types.
Station No. Station 1 Station 2 Station 3 Station n Station n Station 3 Station 2 Station 1
9
10
Connector pin No.
7
8
5
6
a a a b a b a
9 7 5 3 1
COM 7a 5a 3a 1a
10 8 6 4 2
COM 8a 6a 4a 2a
9 7 5 3 1
COM 4a 3a 2a 1a
10 8 6 4 2
COM 4b 3b 2b 1b
9 7 5 3 1
COM 5b 4b 3a 1a
10 8 6 4 2
COM 6a 5a 4a 2a
MN3E0 / MN4E0 Series
Technical data (1) Precautions for wiring
3
4
1
2
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
9 7 5 3 1
COM 4a 3a 2a 1a
10 8 6 4 2
COM (Void) (Void) (Void) (Void)
9 7 5 3 1
COM 4a 3a 2a 1a
10 8 6 4 2
COM 4b (Void) (Void) (Void)
303
SCPD2
SCM
MDC2
SMD2
SSD
STS/L
LCS
STR2
MRL2
GRC
Cylinder
switch
KBA
MN4E0
4GA/B
M4GA/B
MN4GA/B
F.R.
(Module unit)
Clean F.R.
Precision
regulator
Pressure/
Differential
pressure gauge
Electro
pneumatic
regulator
Flow control
valve
Auxiliary
valve
Joint/
tube
Pressure
sensor
Flow
sensor
Valve for
air blow

MN3E0 / MN4E0 Series
304
Flat cable connector type: Wiring method T53
T53 connector
The connector used for T53 wiring method complies
with MIL Standards (MIL-C-83503).
The flat cable pressure welding makes wiring work
easy.
Pin number assignment differs with the PLC manufacturer,
but function assignments are the same. Layout
using connectors and the triangular mark ( ) shown
below as a reference. The ( ) mark is the reference
for both the plug and socket.
* When using the valve block with individual power
supply function (AUX) or type with low heat-generating,
energy saving circuit, energizing is limited to
the plus common.
Connector pin array diagram (TOP VIEW) and
internal circuit diagram
COM
25 23 21 19 17 15 13 11 9 7 5 3 1
26 24 22 20 18 16 14 12 10 8 6 4 2
T53 wiring method connector pin array (Example)
* The numbers in the valve No. 1a, 1b, 2a, 2b and so forth indicate
the first station and 2nd station. The alphabetic characters
a and b indicate the a side solenoid and the b side solenoid.
The maximum number of manifold stations differs according
to the model.
Refer to the specifications for each model.
For single solenoid valve
Pin No.
Valve No.
Pin No.
Valve No.
Mark
Precautions for (T53) connector type
(1) Signal arrays of the PLC output unit must match
signal arrays of the valve side.
(2) The working power is 24 VDC or 12 VDC.
(3) The T53 type is driven with a general output unit.
(4) Do not connect this manifold to the input unit as
major faults could occur in this device and in peripherals.
Connect this manifold to the output unit.
(5) The voltage may drop due to simultaneous energizing
or due to the cable length. Check that the
voltage drop in the solenoid is within 10% of the
rated voltage.
*The manifold stations are counted as station 1, station 2, station 3 and so forth starting
from the wiring block side. The counting direction differs for the T30 and T30R types.
Station No. Station 1 Station 2 Station 3 Station n Station n Station 3 Station 2 Station 1
Connector pin No.
25 23 21 19 17 15 13 11 9 7
26 24 22 20 18 16 14 12 10 8
a a a b a b a
25 23 21 19 17 15 13 11 9 7 5 3 1
COM 23a 21a 19a 17a 15a 13a 11a 9a 7a 5a 3a 1a
26 24 22 20 18 16 14 12 10 8 6 4 2
COM 24a 22a 20a 18a 16a 14a 12a 10a 8a 6a 4a 2a
For double solenoid valve
Pin No. 25 23 21 19 17 15 13 11 9 7 5 3 1
Valve No. COM 12a 11a 10a 9a 8a 7a 6a 5a 4a 3a 2a 1a
Pin No. 26 24 22 20 18 16 14 12 10 8 6 4 2
Valve No. COM 12b 11b 10b 9b 8b 7b 6b 5b 4b 3b 2b 1b
For mix (both single and double)
Pin No. 25 23 21 19 17 15 13 11 9 7 5 3 1
Valve No. COM 16a 15a 14a 12a 10a 9a 8a 7a 5b 4b 3a 1a
Pin No. 26 24 22 20 18 16 14 12 10 8 6 4 2
Valve No. COM 16b 15b 14b 13a 11a 9b 8b 7b 6a 5a 4a 2a
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
25 23 21 19 17 15 13 11 9 7 5 3 1
COM 12a 11a 10a 9a 8a 7a 6a 5a 4a 3a 2a 1a
26 24 22 20 18 16 14 12 10 8 6 4 2
COM (Void) (Void) (Void) (Void) (Void) (Void) (Void) (Void) (Void) (Void) (Void) (Void)
25 23 21 19 17 15 13 11 9 7 5 3 1
COM 12a 11a 10a 9a 8a 7a 6a 5a 4a 3a 2a 1a
26 24 22 20 18 16 14 12 10 8 6 4 2
COM (Void) (Void) (Void) 9b 8b 7b (Void) 5b 4b (Void) (Void) (Void)
5
6
3
4
1
2

Intermediate wiring block: Wiring method TM*
Precautions for wiring method TM
(1) Signal arrays of the PLC output unit must match signal arrays of the valve side.
(2) The working power is 24 VDC or 12 VDC.
(3) The TM1B type is driven with a general output unit.
(4) Do not connect this manifold to the input unit as major faults could occur in this device and in peripherals.
Connect this manifold to the output unit.
(5) The voltage may drop due to simultaneous energizing or due to the cable length.
Check that the voltage drop in the solenoid is within 10% of the rated voltage.
* When using the valve block with individual power supply
function (AUX) or type with low heat-generating,
energy saving circuit, energizing is limited to the plus
common.
Counting the stations
The manifold stations are counted from wiring block
TM to the right with the wiring ports facing forward.
Wiring method TM1A
A
B
N4E010
a
N4E010
Station No. Station 1 Station 2 Station 3 Station 4
Connectors used for wiring method TM1A
RITS connector 6P (1473562-6) TYCO ELECTRONICS AMP K.K.
The pin numbers 1 to 6 are stamped on the connector. Up to ten points can be input as shown below.
A B
1 2 3 4 5 6 1 2 3 4 5 6
COM
TM1A wiring method connector pin array (Example)
Connector A Connector B
Pin No. 1 2 3 4 5 6 1 2 3 4 5 6
Valve No. COM 1a 2a 3a 4a 5a COM 6a 7a 8a 9a 10a
For double
solenoid valve
Pin No. 1
Connector A
2 3 4 5 6 1
Connector B
2 3 4 5 6
Valve No. COM 1a 1b 2a 2b 3a COM 3b 4a 4b 5a 5b
For mix
Connector A Connector B
(both single and double)
Pin No. 1 2 3 4 5 6 1 2 3 4 5 6
Valve No. COM 1a 2a 2b 3a 4a COM 5a 5b 6a 7a 7b
a
N4E010
a
N4E010
a
MN3E0 / MN4E0 Series
Technical data (1) Precautions for wiring
* When using the valve block with individual power supply
function (AUX) or type with low heat-generating,
energy saving circuit, energizing is limited to the plus
common.
The numbers in the valve No. 1a, 1b, 2a, 2b and so forth indicate the first station and 2nd station. The alphabetic characters a and b indicate the a side solenoid and the b side solenoid.
The maximum number of manifold stations differs according to the model, but there can be a maximum of 10 solenoid (coil) points.
For single
solenoid valve
Connector A Connector B
Pin No. 1 2 3 4 5 6 1 2 3 4 5 6
Valve No. COM 1a (Void) 2a (Void) 3a COM (Void) 4a (Void) 5a (Void)
Connector A Connector B
Pin No. 1 2 3 4 5 6 1 2 3 4 5 6
Valve No. COM 1a (Void) 2a 2b 3a COM (Void) 4a (Void) 5a 5b
305
SCPD2
SCM
MDC2
SMD2
SSD
STS/L
LCS
STR2
MRL2
GRC
Cylinder
switch
KBA
MN4E0
4GA/B
M4GA/B
MN4GA/B
F.R.
(Module unit)
Clean F.R.
Precision
regulator
Pressure/
Differential
pressure gauge
Electro
pneumatic
regulator
Flow control
valve
Auxiliary
valve
Joint/
tube
Pressure
sensor
Flow
sensor
Valve for
air blow

MN3E0 / MN4E0 Series
306
Wiring method TM1C
Connectors used for wiring method TM1C
RITS connector 6P (1473562-6) TYCO ELECTRONICS AMP K.K.
The pin numbers 1 to 6 are stamped on the connector. Up to five points can be input as shown below.
A
COM
1 2 3 4
5
6
TM1C wiring method connector pin array (Example)
The numbers in the valve No. 1a, 1b, 2a, 2b and so forth indicate the first station and 2nd station. The alphabetic characters a and b indicate the a side solenoid and the b side solenoid.
The maximum number of manifold stations differs according to the model, but there can be a maximum of 10 solenoid (coil) points.
For single
solenoid valve
For double
solenoid valve
For mix
(both single and double)
Pin No. 1
Valve No. COM
Pin No. 1
Valve No. COM
Pin No. 1
Valve No. COM
Wiring method TM52
* When using the valve block with individual power supply function (AUX)
or type with low heat-generating, energy saving circuit, energizing is
limited to the plus common.
2
1a
2
1a
2
1a
3
2a
3
1b
3
2a
4
3a
4
2a
4
2b
5
4a
5
2b
5
3a
6
5a
6
(Void)
6
4a
Pin No.
Valve No.
Pin No.
Valve No.
1
COM
1
COM
2
1a
2
1a
3
(Void)
3
(Void)
Connectors used for wiring method TM52
MIL Standards (MIL-C-83503) compliant 10-pin flat cable connector
Pin numbers 1 to 10 are set on the connector starting at the mark as shown below. Up to eight points can be input.
COM
9
10
4
2a
4
2a
5
(Void)
TM52 wiring method connector pin array (Example)
The numbers in the valve No. 1a, 1b, 2a, 2b and so forth indicate the first station and 2nd station. The alphabetic characters a and b indicate the a side solenoid and the b side solenoid.
The maximum number of manifold stations differs according to the model, but there can be a maximum of 8 solenoid (coil) points.
For single
solenoid valve
For double
solenoid valve
For mix
(both single and double)
Mark
7 5 3 1
8 6 4 2
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
1
1a
1
1a
1
1a
2
2a
2
1b
2
2a
* When using the valve block with individual power supply function
(AUX) or type with low heat-generating, energy saving circuit, energizing
is limited to the plus common.
3
3a
3
2a
3
2b
4
4a
4
2b
4
3a
5
5a
5
3a
5
4a
6
6a
6
3b
6
5a
7
7a
7
4a
7
5b
8
8a
8
4b
8
6a
9 10
COM
9 10
COM
5
2b
9 10 Pin No. 1 2 3 4 5 6 7 8
COM Valve No. 1a (Void) 2a (Void) 3a (Void) 4a (Void)
Pin No. 1 2 3 4 5 6 7 8
Valve No. 1a (Void) 2a 2b 3a (Void) 4a (Void)
6
(Void)
6
3a
9 10
COM
9 10
COM

Mixed wiring block
MN3E0 / MN4E0 Series
Technical data (1) Precautions for wiring
Counting the stations
The manifold stations are counted as shown below with the piping port facing forward.
* Left wiring block (T30, T50, T51, T52, T53), and
: The stations are counted in order to the right starting from the wiring block.
* Intermediate wiring block (TM1A, TM1C, TM52)
* The right wiring block (T30R, T50R, T51R, T52R, T53R): The stations are counted in order to the left starting from the wiring block.
1 3
2 4
Left wiring block
control range
Serial
number
3
2
1
Right wiring block
control range
Mandatory!! N4EO-Q-*-C (with no internal wiring circuit)
1
2
3
Intermediate wiring
block control range
Serial
number
3
2
1
Right wiring block
control range
* When mixing the right wiring block with another wiring block, the left/right wiring block circuits could be connected via the
manifold and result in unexpected valve operation. Always install the "N4EO-Q-*-C type with no supply/exhaust block internal
wiring circuit" at the end of the right wiring block control station, so that the left and right wiring in the manifold are not connected.
A
B
307
SCPD2
SCM
MDC2
SMD2
SSD
STS/L
LCS
STR2
MRL2
GRC
Cylinder
switch
KBA
MN4E0
4GA/B
M4GA/B
MN4GA/B
F.R.
(Module unit)
Clean F.R.
Precision
regulator
Pressure/
Differential
pressure gauge
Electro
pneumatic
regulator
Flow control
valve
Auxiliary
valve
Joint/
tube
Pressure
sensor
Flow
sensor
Valve for
air blow

MN3E0 / MN4E0 Series
308
Serial transmission type: Wiring method T6*
T6* serial transmission type
The slave unit output numbers differ according to each
maker. The connector pin numbers and manifold solenoids
correspond as shown below.
The number of manifold stations are set in order from
the left side with the piping port facing forward regardless
of the wiring block position.
The internal connectors are wired in order, so if there
are fewer solenoid points than output points, there may
be a void output number. This void output number cannot
be used to drive a manifold other than the solenoid
valve manifold being used.
The working power is limited to 24VDC.
The slave unit corresponding to each communication
station is used. Contact CKD for the specifications on
the usable PLC models, host unit models and communication
systems. (Refer to page 313.)
The output numbers differ according to the PLC maker,
but the function assignments are the same. Arrange
using the connectors and triangles ( ) shown in the
following table as a reference. The mark is the reference
for both the plug and socket.
T6* wiring method connector pin array (Example)
*The numbers in the valve No. 1a, 1b, 2a, 2b and so forth indicate
the first station and 2nd station. The alphabetic characters a
and b indicate the a side solenoid and the b side solenoid.
The maximum number of manifold stations differs according
to the model. Refer to the specifications for each model.
For single
solenoid valve
For double
solenoid valve
For mix
(both single and double)
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
11
9a
1
1a
11
5a
1
1a
11
7a
1
1a
T6A1 T6C1 T6E1 T6J1 T6K1
Output No. 0 1 2
Connector pin No. 1 2 3
Station No.
Output No. and connector Pin No.
Station 1 Station 2 Station 3 Station n
Connector pin No.
12
10a
2
2a
12
5b
2
1b
12
7b
2
2a
13
11a
3
3a
13
6a
3
2a
13
8a
3
3a
14
12a
4
4a
14
6b
4
2b
14
9a
4
3b
15
13a
5
5a
15
7a
5
3a
15
10a
5
4a
16
14a
6
6a
16
7b
6
3b
16
10b
6
4b
17
15a
7
7a
17
8a
7
4a
17
11a
7
5a
18
16a
8
8a
18
8b
8
4b
18
11b
8
6a
T6A0 T6C0 T6E0 T6J0
Output No.
Connector pin No.
T6G1
Output No.
Connector pin No.
19
9
19
9
19
9
20
+COM
10
+COM
20
+COM
10
+COM
20
+COM
10
+COM
0
1
0
1
1
2
1
2
2
3
2
3
3
4
3
4
3
4
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
Pin No.
Valve No.
4
5
4
5
4
5
5
6
5
6
5
6
6
7
6
7
6
7
7
8
7
8
7
8
8
11
8
11
9
12
9
12
11 12 13 14 15 16 17 18 19 20
1 2 3 4 5 6 7 8 9 10
11
5a
1
1a
11
5a
1
1a
12
(Void)
2
(Void)
12
(Void)
2
(Void)
13
6a
3
2a
13
6a
3
2a
14
(Void)
4
(Void)
14
(Void)
4
(Void)
15
7a
5
3a
15
7a
5
3a
10
13
A
13
16
(Void)
6
(Void)
16
7b
6
3b
11
14
B
14
17
8a
7
4a
12
15
C
15
18
(Void)
8
(Void)
17 18
8a (Void)
7 8
4a 4b
13
16
D
16
19
9
19
9
14
17
E
17
15
18
F
18
20
+COM
10
+COM
20
+COM
10
+COM

T6A0
T6A1
T6C0
T6C1
T6G1
POWER
SEND
LED display
LED name Display
Lights when power is ON.
Flickers when transmission is normal.
Lights or turns OFF when transmission is not normal.
Valve
Holding
Clear
LED name Display
Valve (green) Lights when valve power is ON.
PWR (green) Lights when unit power is ON.
COMM
(orange)
ERR (red)
Lights during normal communication.
Turns OFF when communication is abnormal
or when system is standing by.
Lights when communication error occurs.
Turns OFF during normal communication
or when system is standing by.
PW1 PW2 SD RD LRUN LERR
STATION NO.
VRATE HLD
CLR END
X 10 X 1
DA DG N-C OV
Valve
24V
Unit
DB SLD (FG) OV 24V
LED name Display content
PW1
PW2
SD
RD
L RUN
L ERR
Lights when unit power is ON.
Lights when valve power is ON.
Lights when transmitting data.
Lights when receiving data.
Lights when receiving normal data, and turns OFF at time over.
(Turns ON when normal data is received.)
Lights when transmission error occurs.
Turns OFF when time over occurs.
Lights when Station No. setting
or transmission speed setting is incorrect.
Flickers when Station No. setting or transmission
speed setting changes during process.
DC power
supply
MN3E0 / MN4E0 Series
Technical data (1) Precautions for wiring
Wiring method
D G NC 0V 24V
(Upper row)
0V 24V
D G
Power supply
0V 24V
D G
Power supply
(Upper row) (Lower row)
slave unit
(Lower row)
Terminal function name
4 or 2 conductor
Previous station cabtire cable X 2
24V
0V
G
D
Note 1: The wiring to each terminal
block on the upper or lower
row can be wired to either
the previous or next station.
Note 2: The maximum current that
can be passed between 0V
and 24V via the slave unit
using this wiring is 7A.
BS- BS- 0V 24V
Unit Valve
Power supply Power supply
slave unit
NC
Master
Unit
+ + + + +
+ + + + +
D G NC 0V 24V
+ + + + +
BDL BS-
Master
BDH
BDH
BDL
BS+ 24V 24V
+ + + + +
0V 0V NC
Terminal block
Signal wire (VCTF cable)
BDH BDL
slave unit
+ + + + +
DA DG N/C
0V 24V
Valve
+ + + + +
DB SLD (FG)
Previous station CC-Link dedicated cable
SLD
DG
DB
DA
(FG)
D
A
D
B
D
G
S L
D
slave unit
0V 24V
Unit
Terminal function name
F
G
( )
*Common terminal is used for
unit power and valve power.
Next station
D
G
0V
24V
T-branch wiring is not allowed.
(Upper row)
(Lower row)
(Upper row)
BDH BDL
slave unit
(Lower row)
Next station
DA
DB
DG
SLD
(FG)
Terminating
resistor
309
SCPD2
SCM
MDC2
SMD2
SSD
STS/L
LCS
STR2
MRL2
GRC
Cylinder
switch
KBA
MN4E0
4GA/B
M4GA/B
MN4GA/B
F.R.
(Module unit)
Clean F.R.
Precision
regulator
Pressure/
Differential
pressure gauge
Electro
pneumatic
regulator
Flow control
valve
Auxiliary
valve
Joint/
tube
Pressure
sensor
Flow
sensor
Valve for
air blow

MN3E0 / MN4E0 Series
310
T6E0
T6E1
T6J0
T6J1
T6K1
LED display Wiring method
LED name Display
POWER Lights when power is ON.
SEND
Flickers when transmission is normal.
Lights or turns OFF when transmission is not normal.
LED name Display
POWER Lights when power is ON.
SEND
Flickers when transmission is normal.
Lights or turns OFF when transmission is not normal.
Valve
Valve
Unit
LED name Display
Valve (green) Lights when valve power is ON.
POW/ERR (irregular) Lights when unit power is ON.
POW/ERR (green) Normal communication is taking place.
POW/ERR (red)
Transmission path is cut off, or there is a
problem with the remote I/O adaptor unit.
POW/ERR (orange)
The address setting is incorrect, or the
communication state is poor.
DC power
supply
Note 1: The wiring to each
terminal block on the
upper or lower row can
be wired to either the
previous or next station.
(Upper row)
D G N/C 0V 24V
*Common terminal is used for
(Lower row) unit power and valve power.
D G N/C 0V 24V
Previous station
Terminal function name
S-LINK dedicated cable or
4 conductor cabtire cable Next station
24V
D
0V
G
G
D
0V 24V
D G
Power supply
0V 24V
D G
Power supply
(Upper row) (Lower row)
slave unit
(Upper row)
D G N/C 0V 24V
(Lower row)
D G N/C 0V 24V
Terminal function name
0V
24V
*T-branch wiring possible.
This method supplies power
simultaneously to all S-LINK
components and input/output
devices from the DC power (main
power) connected to the S-LINK
controller.
Previous station
4 or 2 conductor
cabtire cable X 2 Next station
24V
D
0V
G
G
0V
D 24V
DC power supply
Note 1: The wiring to each terminal
block on the upper or lower
row can be wired to either
the previous or next station.
Remote I/O
Adaptor
(Host station)
S+
S-
S+ S-
Line
NC
0V 24V
D G
Power supply
0V 24V
D G
Power supply
(Upper row) (Lower row)
slave unit
0V 24V
Valve
(Upper row)
S+ S- S+ Sslave
unit slave unit
*Common terminal is used for
unit power and valve power.
S+ S-
slave unit
*T-branch wiring possible.
(Lower row)
0V 24V
NC NC FG
Unit
Terminal block
Signal wire (VCTF cable)
To next station
From next station {
(Terminating resistor not required)

Serial transmission type: wiring method T7*
T7* serial transmission type
The slave unit I/O numbers differ according to each PLC maker, so refer to the following
tables.
The slave unit I/O numbers correspond to the manifold solenoids as shown below.
The solenoid valve manifold station numbers are set in order from left with the piping port
facing forward.
The working power is limited to 24VDC.
The slave unit corresponding to each communication station is used. Contact CKD for
the specifications on the usable PLC models, host unit models and communication
systems. (Refer to page 313.)
Insert each connector (for power/communication) into the product and securely tighten.
Always close the cover after setting the addresses, etc.
(Appropriate tightening torque for power: 0.25N·m, for communication 0.3N·m.)
Serial transmission slave unit I/O numbers corresponding to PLC address numbers
1. Hexadecimal notation
Serial transmission slave unit I/O No. 0
CC-Link
DeviceNet
Y00
2. Decimal notation
Serial transmission slave unit I/O No. 0
CC-Link
DeviceNet
MN3E0 / MN4E0 Series
Technical data (1) Precautions for wiring
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31
Y01 Y02 Y03 Y04 Y05 Y06 Y07 Y08 Y09 Y0A Y0B Y0C Y0D Y0E Y0F Y10 Y11 Y12 Y13 Y14 Y15 Y16 Y17 Y18 Y19 Y1A Y1B Y1C Y1D Y1E Y1F
Solenoid output numbers corresponding to serial transmission slave unit I/O numbers
Serial transmission slave unit I/O No.
Type of slave unit Maximum solenoid number
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31
* T7G1 (CC-Link)
* T7D1 (DeviceNet)
* T7G2 (CC-Link)
* T7D2 (DeviceNet)
Y0
00
1
Y0
01
16 points S1 S2 S3 S4 S5 S6 S7 S8 S9 S10S11S12S13 S14S15S16
32 points
2
Y0
02
3
Y0
03
4
Y0
04
5
Y0
05
6
Y0
06
7
Y0
07
8
Y0
08
9
Y0
09
10
Y0
10
11
Y0
11
12
Y0
12
13
Y0
13
14
Y0
14
15
Y0
15
16
Y1
00
17
Y1
01
18
Y1
02
19
Y1
03
311
SCPD2
SCM
MDC2
SMD2
SSD
STS/L
LCS
STR2
MRL2
GRC
Cylinder
switch
KBA
MN4E0
4GA/B
M4GA/B
MN4GA/B
F.R.
(Module unit)
Clean F.R.
S1 S2 S3 S4 S5 S6 S7 S8 S9 S10 S11 S12 S13 S14 S15 S16 S17 S18 S19 S20 S21 S22 S23 S24 S25 S26 S27 S28 S29 S30 S31 S32
Precision
regulator
Valve number layout corresponding to wiring method T7* solenoid output No. (example)
*The numbers in the valve No. 1a, 1b, 2a, 2b and so forth indicate the first station and 2nd station. The alphabetic characters a and b indicate the a side solenoid and the b side solenoid.
The maximum number of manifold stations differs according to the model.
Refer to the specifications for each model.
For single solenoid valve (max. 16 stations)
Solenoid output No. S1 S2 S3 S4 S5 S6 S7 S8 S9 S10 S11 S12 S13 S14 S15 S16 S17 S18 S19 S20 S21 S22 S23 S24 S25 S26 S27 S28 S29 S30 S31 S32
Valve No. 1a 2a 3a 4a 5a 6a 7a 8a 9a 10a 11a 12a 13a 14a 15a 16a
For double solenoid valve
Solenoid output No.
Valve No.
Solenoid output No.
Valve No.
For single solenoid valve
S1 S2 S3 S4 S5 S6 S7 S8 S9 S10 S11 S12 S13 S14 S15 S16 S17 S18 S19 S20 S21 S22 S23 S24 S25 S26 S27 S28 S29 S30 S31 S32
1a 1b 2a 2b 3a 3b 4a 4b 5a 5b 6a 6b 7a 7b 8a 8b 9a 9b 10a 10b 11a 11b 12a 12b 13a 13b 14a 14b 15a 15b 16a 16b
For mix (single/double mixture) (max. 16 stations)
Solenoid output No.
Valve No.
For mix (single/double mixture)
Y** indicates an output.
Station No.
S1 S2 S3 S4 S5 S6 S7 S8 S9 S10 S11 S12 S13 S14 S15 S16 S17 S18 S19 S20 S21 S22 S23 S24 S25 S26 S27 S28 S29 S30 S31 S32
1a 2a 3a 3b 4a 4b 5a 6a 7a 7b 8a 9a 10a 10b 11a 11b 12a 13a 14a 14b 15a 15b 16a
S1 S2 S3 S4 S5 S6 S7 S8 S9 S10 S11 S12 S13 S14 S15 S16 S17 S18 S19 S20 S21 S22 S23 S24 S25 S26 S27 S28 S29 S30 S31 S32
1a (Void) 2a (Void) 3a (Void) 4a (Void) 5a (Void) 6a (Void) 7a (Void) 8a (Void) 9a (Void) 10a (Void) 11a (Void) 12a (Void) 13a (Void) 14a (Void) 15a (Void) 16a (Void)
Solenoid output No. S1 S2 S3 S4 S5 S6 S7 S8 S9 S10 S11 S12 S13 S14 S15 S16 S17 S18 S19 S20 S21 S22 S23 S24 S25 S26 S27 S28 S29 S30 S31 S32
Valve No. 1a (Void) 2a (Void) 3a 3b 4a 4b 5a (Void) 6a (Void) 7a 7b 8a (Void) 9a (Void) 10a (Void) 11a 11b 12a 12b 13a (Void) 14a (Void) 15a 15b 16a (Void)
20
Y1
04
21
Y1
05
b a b a b
a b a b a
N3E0660
Station 1 Station 2 Station 3 Station n
22
Y1
06
N3E0660
23
Y1
07
24
Y1
08
N3E0660
25
Y1
09
N3E0660
26
Y1
10
27
Y1
11
28
Y1
12
29
Y1
13
30
Y1
14
31
Y1
15
Pressure/
Differential
pressure gauge
Electro
pneumatic
regulator
Flow control
valve
Auxiliary
valve
Joint/
tube
Pressure
sensor
Flow
sensor
Valve for
air blow

MN3E0 / MN4E0 Series
Technical data (1) Precautions for wiring
312
T7D1
T7D2
T7G1
T7G2
LED display Wiring method
LED name
LED name
MS
Display
Display
Slave status is indicated with green and red LEDs.
Errors are indicated using combination with "NS LED".
NS
Network status is indicated with green and red LEDs.
Errors are indicated using combination with "MS LED".
LED name Display
LED name Display
PW
SD
RD
L RUN
L ERR
Lights when power is ON.
Lights when transmitting data.
Lights when receiving data.
Lights when receiving normal data.
Lights when time over occurs.
Lights when transmission error occurs.
Turns OFF when time over occurs.
Lights when Station No. setting or
transmission speed setting is incorrect.
Flickers when Station No. setting or transmission
speed setting changes during process.
V-
CAN
L
D
CAN
H
V+
(Black)
(Blue)
(None)
(White)
(Red)
24V 0V 24V 0V
Previous station
V-
CAN_L
Drain
CAN_H
V+
DeviceNet cable
* The power is connected to the 2-pole connector.
* The DeviceNet cable is connected to the 5-pole connector.
* The power terminal (24V, 0V) is insulated from the communication power terminal (V+, V-).
* The wiring section connectors are enclosed.
DA DB DG SLD
FG
24V 0V 24V 0V
Previous station
(Blue) DA
(White) DB
(Yellow) DG
(Bare) SLD
FG
* The power is connected to the 2-pole connector.
* The CC-Link cable is connected to the 5-pole connector.
* The wiring section connectors are enclosed.
(Black)
(Blue)
(None)
(White)
(Red)
T branch tap Next station
Multi drop type T branch type
CC-Link dedicated cable
DA (Blue)
DB (White)
DG (Yellow)
SLD (Bare)
FG
V-
CAN_L
Drain
CAN_H
V+
(Black)
(Blue)
(None)
(White)
(Red)
Next station
DA
DB
DG
SLD
FG

PLC correspondence table
Model No.
T6A0
T6A1
T6C0
T6C1
T6E0
T6E1
T6G1
T6J0
T6J1
T6K1
T7D1
T7D2
T7G1
T7G2
Maker name (recommended)
CKD
Kuroda precision industries
NKE
OMRON
SUNX
MITSUBISHI
CC-Link Partner
Association (CLPA)
CKD
KURODA PRECISIONS INDUSTRIES LTD.
NKE
KEYENCE
OMRON
TOYODA MACHINE WORKS
ODVA
MITSUBISHI
CC-Link Partner
Association (CLPA)
MN3E0 / MN4E0 Series
Technical data (1) Precautions for wiring
Series Communication system name Host station model No.
Contact CKD for details on
correspondence with each PLC,
personal computer and SBC brand.
Correspond to each PLC,
personal computer and
SBC brand.
MELSEC A series
MELSEC QnA series
MELSEC Q series
Others
PLC and personal computer
compatible with each
CC-Link brand
Contact CKD for details on
correspondence with each PLC,
personal computer and SBC brand.
KZ series
MELSEC A series
MELSEC QnA series
MELSEC Q series
Others
PLC and personal computer
compatible with
each CC-Link brand
UNIWIRE SYSTEM
SYSMAC /CS1 series
CompoBus/S
C200HS, CQM1 (H) series
T6CO/1 is not compatible
( with long distance mode. )
SYSMAC CS series
SYSMAC CJ series
SYSMAC CV series
SYSMAC series
SYSMAC C200HS series
Others
PC3J/2J series
PC3JD
PC2F/PC2FS
PLC, personal computer
and SBC compatible
with each DeviceNet brand
S-LINK
CC-Link
UNIWIRE H system
KZ-R
DeviceNet
CC-Link
Connect to send unit
(UW-SD-120) or each
unit-wire interface.
C200HW-SRM21-V1
CQM1-SRM21-V1
SRM1-C01/C02-V2
Connect to S-LINK controller
or each S-LINK control board
AJ61BT11
AJ61QBT11
A1SJ61BT11
A1SJ61QBT11
QJ61BT11
Master for other CC-Link
Connect to each maker's
CC-Link master
Connect to send unit
(UW-SD-H2(A)) or each
unit-wire interface.
KZ-R1A
CS1W-DRM21
CJ1W-DRM21
CVM1-DRM21-V1
C200HW-DRM21-V1
ITNC-EI*01-DRM (master integrated PLC)
3G8B3-DRM21 (VME board)
THK-5398
TIC-5642 (master integrated PLC)
TFU-5359
Connect to each maker's
DeviceNet master
AJ61BT11
AJ61QBT11
A1SJ61BT11
A1SJ61QBT11
QJ61BT11(N)
Master for other CC-Link
Connect to each maker's
CC-Link master
313
SCPD2
SCM
MDC2
SMD2
SSD
STS/L
LCS
STR2
MRL2
GRC
Cylinder
switch
KBA
MN4E0
4GA/B
M4GA/B
MN4GA/B
F.R.
(Module unit)
Clean F.R.
Precision
regulator
Pressure/
Differential
pressure gauge
Electro
pneumatic
regulator
Flow control
valve
Auxiliary
valve
Joint/
tube
Pressure
sensor
Flow
sensor
Valve for
air blow

MN3E0 / MN4E0 Series
314
Disassembling and assembling the block manifold
CAUTION: Always turn the power OFF and release the pressure before increasing or decreasing the manifolds.
The procedures for changing the valve blocks, replacing the valve blocks when spent, adding the supply/exhaust blocks and
changing/increasing the specifications using various pressure supply devices are explained below.Refer to the individual Instruction Manuals for
details.
Always turn OFF the power and stop the air pressure source before starting the disassembly work.When the manifold has been disassembled
and assembled, if the connection key is not properly returned between the blocks or if the wiring and end block screws are insufficiently
tightened, air could leak or malfunctions could result.Confirm that the connection keys are correctly returned between the blocks and that the
blocks are securely fixed onto the DIN rail before supplying the air.CKD recommends using identification marking when disconnecting the A and
B port piping.
Replacing the valve block
(1) Loosen the DIN rail set screw on the
end block.
(2) Using a thin tool, press down on the
key connecting the valve block to be
replaced and the blocks on both sides.
Connection key
(3) Slide the block to the end block side,
and provide a space of approx. 10mm
on each side of the block to be
replaced.
10mm
space
(4) Lift up the block's wiring cover side,
and pull toward the piping port side.
The block will come off the DIN rain.
(5) Replace with a new block.
(6) Slide all of the blocks to the wiring
block side, so that there are no spaces
between the blocks.
(7) Confirm that the connection key has
returned to the groove on the block.
(8) Confirm that the end block's retainer
claw is caught on both sides of the
DIN rail, and then tighten the set screw
with a screwdriver.
The appropriate tightening torque is
1.4N·m.
When fixing, move the retainer in the
direction of the arrow and confirm that
the jaws are caught on the rail. Then,
fix the screws at 1.4N·m.
Confirm that the claws are
caught on the rail.
Increasing the valve blocks
(1) The blocks are added with the same
procedures as replacing the valve
blocks.
(2) If the blocks might be added, designate
the DIN rail length in the specifications
(page 319).
Mounting the supply/exhaust block
(1) The blocks are added with the same
procedures as replacing the valve
blocks.
Replacing the cartridge joint
(1) Remove the set screw.
(2) Pull out the stopper plate with the joint.
(3) Align the groove on the replacement
joint with the stopper plate, and
temporarily assemble.
(4) Assemble the stopper plate with the
joint, and tighten the set screw.Pull on
the joint and confirm that it is mounted.
Tightening torque
Valve block : 0.22 0.02 N·m
Supply/exhaust block: 0.42 0.02 N·m
Checking after disassembly and assembly
Check the piping and confirm that it is
correct.Make sure that the A and B port
piping is not connected incorrectly.

Type with individual power supply function (AUX)
MN3E0 / MN4E0 Series
The type with individual power supply function (AUX) allows a random valve in the manifold, which has already been connected with reduced
wiring, to be operated with a separate power supply. This is effective when adjusting the device, etc.
(1) Valve block with individual power supply function (AUX) Internal structure diagram
Electric cover AUX
(2) Inputting the individual power supply
Open the wiring cover, and connect the power input socket
(N4E0- socket assembly S/D).
11
When the power input socket is connected, the wiring in the
valve is temporarily separated from the reduced wiring in the
manifold, and the power can be supplied from an external
source.
Precautions for use
(1) Set the collar to the very back.
(2) Cut the end of the fiber
tube at a right angle.
(5) Pull the collar forward to lock it.
Technical data (3) Individual electric supply function integrated (AUX) type
11
(3) AUX terminal structure and internal circuit diagram
COM (+)
Note 1: The polarity of the reduced wiring side and individual power supply side is a plus common.
Proper operation will not take place if the polarity is mistaken.
Note 2: Always use a separate power for the reduced wiring side and the individual power input side.
If the same power is used, the reduced wiring side's wiring will not be cut off, resulting in
incorrect operations.
a (-)
b (-)
Operating the fiber tube joint
(3) Pass the collar through,
and confirm that the fiber
tube is correctly inserted
while carrying out the work.
b
Valve block upper socket
insertion diagram
a
Shut off when socket is inserted
b (-)
COM (+)
a (-)
(4) Insert the fiber tube to
the last position.
b (-)
COM (+)
a (-)
Manifold internal wiring side AUX terminal side
Outline of AUX terminal polarity
and internal circuit
315
SCPD2
SCM
MDC2
SMD2
SSD
STS/L
LCS
STR2
MRL2
GRC
Cylinder
switch
KBA
MN4E0
4GA/B
M4GA/B
MN4GA/B
F.R.
(Module unit)
Clean F.R.
Precision
regulator
Pressure/
Differential
pressure gauge
Electro
pneumatic
regulator
Flow control
valve
Auxiliary
valve
Joint/
tube
Pressure
sensor
Flow
sensor
Valve for
air blow

MN3E0 / MN4E0 Series
316
Wiring between wiring block and valve block
A part called a dedicated wiring connector is incorporated in the valve block and supply/exhaust block, etc. This enables the wiring to be
completed simultaneously with the disassembly and assembly of the block manifold. Special wiring work is not required during disassembly
and assembly. The wiring structure pattern diagram is shown below.
There is a regularity to the wiring block connector pin numbers and arranged valves. Refer to the section on the wiring method, and
connect the wires between the valves and control device. Take special care when increasing or decreasing the valve blocks.
Only T* (left wiring block) or TM* (intermediate wiring block)
The blocks are arranged in the order of 1a, 1b, 2a and so forth from the valve block to the right of the wiring block with the port facing
forward.
T*,TM
Only T*R (right wiring block)
The blocks are arranged in the order of 1a, 1b, 2a and so forth from the valve block to the left of the wiring block with the port facing
forward.
T*R
For {T* (left wiring block)
or TM* (intermediate wiring block)} + TM* (intermediate wiring block) for TX (mix)
The blocks are arranged in the order of 1a, 1b, 2a and so forth from the valve block to the right of the wiring block with the port facing forward.
The wiring is shut off from the left of the intermediate wiring block.
T*
( TM control stations)
(TM control stations)
T*,TM Supply and exhaust
TM
a b com a b com
a b com a b com
2
4
6
8
10
1
3
5
7
9
2
4
6
8
10
a
1
3
5
7
9
com
com
a
a
b com
b com
a b com
a b com
com com
2
4
6
8
10
a com
com
9
8 10
7
5
3
1
1
3
5
7
9
6
4
2

T*,TM
2
4
6
8
10
1
3
5
7
9
com
T*
TM
MN3E0 / MN4E0 Series
Technical data (4) Wiring structure
For {T* (left wiring block)
or TM* (intermediate wiring block)} + T*R (right wiring block) for TX (mix)
The 1a, 1b, 2a and so forth layout starting from the left wiring block and the 1a, 1b, 2a and so forth layout starting from right wiring
block exist.
The circuit is shut off at the center with the supply/exhaust block N4E0-Q-*-C (type with no internal wiring circuit) to prevent the wires
from interfering with each other.
2
4
6
8
10
T*,TM
1
3
5
7
9
com
T*
( TM control stations)
(T*R control stations)
Supply and exhaust T*R
a b com a b com a com
Without inside
a b com a b com
wiring
com
( control stations)
(T*R control stations)
Supply and exhaust T*R
a b com a b com a com a b com a b com
9
8 10
Example of incorrect layout Left/right wires interfere at center
The left/right wiring block circuits are connected via the manifold, and could result in unpredicted valve operation.
7
5
3
1
com
10
9
7
5
3
1
6
4
2
8
6
4
2
317
SCPD2
SCM
MDC2
SMD2
SSD
STS/L
LCS
STR2
MRL2
GRC
Cylinder
switch
KBA
MN4E0
4GA/B
M4GA/B
MN4GA/B
F.R.
(Module unit)
Clean F.R.
Precision
regulator
Pressure/
Differential
pressure gauge
Electro
pneumatic
regulator
Flow control
valve
Auxiliary
valve
Joint/
tube
Pressure
sensor
Flow
sensor
Valve for
air blow

Obtain the mounting rail length and pitch based on the manifold length (L1)
calculate with the following calculation formula.
The rail length obtained here is the standard length, and does not need to be indicated in the specifications.
Indicate the length in the specifications only when different from the standard length.
Valve block Supply/exhaust block Wiring block
Quantity Quantity (Including end block)
Manifold length L1 = (10 X )+(15.5 X ) + ... Select from table on the right.
318
How to fill out MN4E0 series manifold specifications
Example of manifold model No.
MN 4 E0 8 0 - CX - T50R W F - 7 - 3
Part name
Preparing the manifold specifications
Obtaining the DIN rail length
Mounting rail length L2 = L2' X 12.5
12.5
Model No. B Solenoid position Port size Wiring
method
L2'= L1+25
12.5
End block
L1
10 X n 15.5 X m
Supply/
exhaust
block
Wiring block
n: Valve block No.
m: Supply/exhaust block No.
Add when expanding
the number of blocks.
1 2 3 4
Assign the numbers from the left with the port facing forward.
Layout position number (Serial number for all blocks)
Wiring block width dimensions table
Wiring block
Dimension (mm)
T30/T30R Left or right wiring block
42.4
T5*/T5*R Left or right wiring block
42.4
TM* Intermediate wiring block
43.2
TM*X 2 Intermediate wiring block X 2 piece
55.2
TM*+T3*/T5* Intermediate wiring block + left or right wiring block 54.4
T30/T5*+T30R/T5*R Left wiring block + right wiring block
53.6
T6* Serial transmission slave unit
115.6
T7* Serial transmission slave unit (close range type) 73.1
12.5
Terminal/connector
pin array
Option Station No.
- P70
Voltage Clean room
specifications
A C D E F G H
* When completing this form, select the type from the "Block part components" (pages 292 to 299).
* Complete from the left end, with the piping port facing forward, regardless of the wiring block method.
Wiring block
(Page 294)
Valve block
(Page 295)
Supply/exhaust block
(Page 296)
End block
(Page 297)
Mounting rail
(Refer to Page 282 and 284 for manifold model No.)
Layout position
Model No.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 Quantity
N4E0-T 50R
N4E0-T
1
N4E0 1 0- C4
2
N4E0 2 0- C6
1
N4E0 3 0- C4
N4E0 0-
N4E0 0-
N4E0 0-
Manifold Station No.
: Station 7
Manifold Station No.
: Station 1
1
N3E0 1 0- C4
3
N3E0 0-
N4E0-Q Z - 8L - S
1
N4E0-Q - 8L -
1
N4E0-Q -
N4E0-E L
N4E0-E
Check if the tube puller (standard
accessory) is not required.
1
L2=
Blanking plug
Push-in joint tube remover
(How to calculate length) GWP4-B GWP6-B
GWP8-B
Not required (check)
N4E0-JOINT-PTN2-M3
Screw joint (10 pieces/set) for 1.8 fiber tube
N4E0-JOINT-PTN2-M5 N4E0-JOINT-PTN2-6
Cable with D sub-connector
N4T-CABLE-D0 -
Accessories
Socket assembly for electric supply Connector for wiring block TMI
N4E0-SOCKET- - 3M0-SOCKET-SET
N4E0-TM-CONNECTOR
Complete from the left end, with the piping port facing forward, regardless of the wiring block method.
(Indicate the block type selected from the block part components (pages 292 to 299) and the layout instructions.)
Indicate the total number of blocks designated in the required quantity on the right of the table.
Indicate the quantity for required parts.
Indicate the mounting rail length.(Indicate only when a length other than the standard length is required.)
Integer rounded up at decimal point,
rail installation pitch L3 = L2 - 12.5
Indicate the quantity of these parts as required.
* The valve number is the serial number only for the valve block and is different from the layout position number.
6.25
5.5
8
12.5
L2
L3 (=L2-12.5)

MN4E0 manifold specification sheet
Example of manifold model No. (Refer to Page 282 and 284 for manifold model No.)
MN E0 0- - - - - P70
Model No. B Solenoid
position
Port size Wiring
method
Terminal/connect
or pin array
A C D E F G H
Option Station No. Voltage Clean room
specifications
*When completing this form, select the type from the "Block part components" (pages 292 to 299).
* Complete from the left end, with the piping port facing forward, regardless of the wiring block method.
Part name
Wiring block
(Page 294)
Valve block
(Page 295)
Supply/exhaust block
(Page 296)
End block
(Page 297)
Mounting rail
End block side
Contact Quantity set
Delivery / /
Slip No.
Order No.
N4E0-T
N4E0-T
N E0 0-
N E0 0-
N E0 0-
N E0 0-
N E0 0-
N E0 0-
N E0 0-
N E0 0-
N4E0-Q - -
N4E0-Q - -
N4E0-Q - -
N4E0-E
N4E0-E
L2=
Model No.
Layout position
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 Quantity
GWP4-B
N4E0-JOINT-
PTN2-M3
Blanking plug
GWP6-B GWP8-B
Cable with D sub-connector
N4E0-JOINT-
PTN2-M5
PTN2-6
N4T-CABLE-D0 -
Socket assembly for electric supply Connector for wiring block TMI
N4E0-SOCKET- - 3M0-SOCKET-SET
N4E0-TM-CONNECTOR
Reference circuit diagram
This is the circuit diagram from the manifold (example) on the previous page.Use this for reference.
Supply/
Supply/
Station 1 Station 2 Station 3 Station 4
exhaust block
Station 5 Station 6 Station 7
exhaust block
(P)
1
(R) 3
a
4
(A)
b
2
(B)
(P)
1
(R) 3
a
4
(A)
b
2
(B)
(P)
(R) 3 1
b a
2
(B) 4 (A)
2
(B) 4 (P)
(R) 3 1
b a
(A)
Partition S
(P)
1
Screw joint (10 pieces/set) for 1.8 fiber tube
a
(R) 3
b
4
(A)
(P)
1
a
(R) 3
b
4
(A)
(P)
1
a
(R) 3
b
4
(A)
(PR)
(PA)
R
P
Push-in joint tube remover
Wiring block side N4E0-JOINT-
Not required (check)
Issue date / / /
Your company name
Contact
Order No.
Accessories
319
SCPD2
SCM
MDC2
SMD2
SSD
STS/L
LCS
STR2
MRL2
GRC
Cylinder
switch
KBA
MN4E0
4GA/B
M4GA/B
MN4GA/B
F.R.
(Module unit)
Clean F.R.
Precision
regulator
Pressure/
Differential
pressure gauge
Electro
pneumatic
regulator
Flow control
valve
Auxiliary
valve
Joint/
tube
Pressure
sensor
Flow
sensor
Valve for
air blow