NMP Series Install Manual Datasheet

MEAN WELL
NMP650 / 1K2
Instruction Manual
0.
Safety Guidelines 1
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1.
Product Description
2. Order Information
3 Mechanical Specification and Input/Output Terminals.
4 Product Specifications.
5. Functions
6. Assembly
7. Notes on Operation
A Appendix.
1.1
Description
3 1 Mechanism of Front-End.
3.2 Mechanism of Output Modules
4. Front-End Specifications1
4.2 Single Output Module Specification
4.3 Dual Output Module Specification
5. Input Voltage1
5. Inrush Current Limiting2
6.1 Assembly Procedures
7.1 Front-End Mounting
7.2 Output Wiring Guidelines
7.3 De-rating
7.5 Warranty
7.4 High Potential
5.3 Output Voltage / Current Adjustment
5. Short-Circuit and Over Current Protection4
5.5 Over Voltage Protection
5.6Over Temperature Protection and T-Alarm
5.7 Fan-Lock Protection
5.9 Output Module Remote Sense
5.11 DC-OK Signal and LED Indicator
21.
Output Configuration Guide
22.Notes on Output Configuration
23.Label Marking
1.2
Features
5.8 Remote Control
5.10 Auxiliary Power
5.12 Parallel Operation
5.13 Series Operation
18
6.2 Assembly Example
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Jan. 2021 Version 3
0. Safety Guidelines
1. Product Description
NMP650,1K2 Family Instruction Manual
Risk of electrical shock and energy hazard, please do not remove the case from the power supply unit. The output module
configurations should only be changed by a trained professional.
This unit is cooled by forced-air cooling, so fans and ventilation holes must be kept free from any obstructions. A minimum clearance
of 10cm is recommended.
1.1 Description
1.2 Features
Please do not perform hot-swap of modules during operation, otherwise there will be risk of damaging the power supply unit and electrical
Please do not change any components of the unit or make any kind of modifications to the unit.
Please do not install the unit in places with high moisture, high ambient temperature or under direct sunlight.
The input voltage range is 100-240Vac (50/60Hz), please do not input voltage that is over or less than 10% of this range.
The safety protection level of this unit is Class I. The “Frame Ground” ( ) on the power supply unit must be well connected to PE
(Protective Earth).
shock hazard.
UL/EN60601-1(3rd Edition) Medical safety approval (2x MOPP), 4KVAC Isolation
UL/EN/IEC62368-1 IT safety approval
2018 Taiwan Excellence Award (NMP1K2)
Low leakage current < 400uA/ 264VAC, touch current < 100uA/ 264VAC
Efficiency up to 91%
1U low profile mechanical design
Universal AC input/ full range
Built-in active PFC function
Built-in active current sharing and parallel control capabilities
Output voltage programmable (PV, )NMS 240 only-
Constant current level programmable (PC, )NMS 240 only-
Global or Local ON/OFF control
Remote sense for output module ( )NMS 240 only-
DC-OK signal and LED indicator for output module
Over-temperature protection and T-Alarm on Front-End
Built-in 5V auxiliary power for both Front-End and NMS-240 modules ( )NMS 240 only-
Forced air cooling by built-in DC fan(s) with fans speed control function
Protections: Short circuit/ Overload/ Over voltage/ Over temperature for all output modules
Surge protection levels that meet industrial standard
5-years warranty
NMP is MEAN WELL's new generation intelligent modular power supply, bringing forth the state-of-the-art Front-End and NMS-
240/NMD-240 output module designs. This family offers output module configurability, intelligent control functions, and 1U low
profile form factor. The NMP family also complies with both ITE and medical safety standards, offering the best flexibility for
various types of applications. The end user will be able to fully customize the output voltages by choosing single output
modules of 5V, 12V, 24V and 48V and dual output of 36V, which have wide voltage range and adjustment capability that fully
covers 3~55V.
2.Order Information
2.1 Output Configuration Guide
650W (4 SLOTS) 1200W(6 SLOTS)Parallel or option code
(See Table 1.)
-
SLOT 6SLOT 5
650/ 1K2 (650W/ 1200W)
SLOT 4SLOT 3SLOT 2SLOT 1
NMP -
-
SLOT 1 O/P: 5V@ 36A
SLOT 2 O/P: 12V@ 20A
SLOT 3 O/P: 24V@ 10A
SLOT 4 O/P: 48V@ 5A
SLOT 5 Blank slot
(with BLANK-NMS240)
SLOT 6 O/P: V1 30V@ 5A
(Combined 240W max.)
V2 30V@ 5A
Example: NMP 1K2 C E DHK#-
2
Table 1. Parallel or option code
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
◎◎
◎◎
◎◎
◎◎
◎◎
----------
-----
----------
-----
----- -----
-----
-----
-----
-----
-----
-----
-----
-----
-----
-----
Code 00~31 for NMP1K2
Code 00, 01, 02, 03, 06, 07, 10, 16 for NMP650/NMP1K2
Code
01
00
02
03
04
05
06
07
08
09
10
11
12
13
14
15
◎◎
◎◎
SLOT 1 SLOT 2 SLOT 3 SLOT 4 SLOT 5 SLOT 6
-----
-----
-----
-----
-----
-----
-----
-----
-----
-----
---------------
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----- -----
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3
Figure 2-1. NMP650 Product Label Figure 2-2. NMP1K2 Product Label
Serial Number.
Input Rating.
Maximum Output Rating.
Safety Marks.
Output Encoding.
Output Module Terminal Diagram.
2.3 Label Marking
1
2
3
4
5
6
3.Mechanical Specifications and Input/Output Terminals
3.1 Mechanism of Front-End
NMP1K2
Air flow
direction
CN32
6
5
2
1
TB1
1
2
3
14 max. 219.1
4-M4(Both Sides) L=4
250
10 max.
20.5
8.611
41
6.1
4-M4 L=4
92
122
+V
-V
9.5
8
23.5
80
127
14.8
20
20
20
20
20
12.2
2
1
1
1
1
2
Modules to be in parallel or series connection should be placed in adjacent slots.
The combined operation output power of all modules must be less than the Front-End's rated maximum output power: 1200W for
NMP1K2 and 650W for NMP650.
2.2 Notes on Output Configuration
5
6
5
234
SLOT1
NMP650- -
C81NC81N
+V1+V1
+V2+V2
SLOT1SLOT1
234
SLOT1
SLOT2SLOT2 SLOT3SLOT3 SLOT4
NMP1K2- -
SLOT5 SLOT6SLOT4
56
D
D
30V30V
30V30V
5A5A
5A5A
DD
--
--
++
++
36A36A
CC
--
++ 5V5V
12V12V
20A20A
EE
--
++
24V24V
10A10A
HH
--
++
48V 48V
5A 5A
KK
--
++
C81N
+V
C81N
+V
1
2
3
4
Total Output Power: 520W max. ( )For input 100-109VAC
Input:
110-240VAC 7.5-3.5A
50/60Hz
Input:
100-109VAC 6.9-6.3A
50/60Hz
Total Output Power: 650W max. ( )For input 110-240VAC
NMP650
No. 28 Wuquan 3rd Rd., Wugu Dist., New Taipei City 24891, Taiwan,
MEAN WELL ENTERPRISES CO.,LTD.
Manual:www.meanwell.com/manual.html
MA DE I N TAIWA N
EN 60601-1
IEC 60601-1
8
10
E227340 E183223
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2
3
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Total Output Power: 960W max. ( )For input 100-109VAC
Input:
110-240VAC 13.5-6.70A
50/60Hz
Input:
100-109VAC 12.6-11.5A
50/60Hz
Total Output Power: 1200W max. ( )For input 110-240VAC
NMP1K2
No. 28 Wuquan 3rd Rd., Wugu Dist., New Taipei City 24891, Taiwan,
MEAN WELL ENTERPRISES CO.,LTD.
Manual:www.meanwell.com/manual.html
EN 60601-1
IEC 60601-1
8
10
E227340 E183223
MA DE I N TAIWA N
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Sicherheit
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Case No.260A Unit:mm
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NMS-240 Output Module
AC Input Terminal Pin No. Assignment
Pin No.
1
3
2
Assignment Diagram Mxa imum mounting torque
12Kgf-cm
AC/N
AC/L
Mounting Instructions
Hole No. Recommended Screw Size MAX. Penetration Depth LRecommended mounting torque
1
2
4mm
4mm
M4
M4
7~1 Kgf-cm0
7~1 Kgf-cm0
FG
Function Description of CN32
Pin No. Function Description
1,2 +5V-AUX_P Auxiliary voltage output, 4.5~5.5V, referenced to pin 3 & 4(GND-P).The maximum load current is 2A (NMP1K2) or 1.5A (NMP650).
5 T-Alarm
TTL signal output for over temperature alarm. The maximum sourcing current is 10mA.
High (4.5~5.5V): When the internal temperature exceeds the limit & “safe limit” of temperature alarm.
Low (0~0.5V): When the internal temperature is normal.
3,4 GND-P Ground.
6 RC1 Turns the output on and off by electrical or dry contact between pin 6 (RC1) and pin 3 & 4 (GND-P).
Short: Power ON; Open: Power OFF.
Blank slot
Blank slot should be assembled with BLANK-NMS240, please contact MEAN WELL for details.
DC Output Terminal Pin No. Assignment
4
NMP650
3.2 Mechanism of Output Modules
118.5
5.35
11.75
20
10.75
37.9
CN81
46810
97
5
3
2
1
20
VR60
LD60
-V
+V
Mounting Screw
Mounting Surface
Chassis of NMP
(thickness 1.6mm)
14 max. 219.1
4-M4(Both Sides) L=4
250
10 max.
6.1
+V
-V
20.5
8.611
41
2 2
Air flow
direction
CN32
6
5
2
1
TB1
1
2
3
4-M4 L=4
92
122
23.5
42
89
20 16.8
20
20
12.2
1
1
1
1
89.5
Case No.259A Unit:mm
Assignment Diagram
10Kgf-cm M3.5 10mm
+V, -V
Mxa imum mounting torque Recommended screw size MAX. Penetration Depth L
5
Pin No. Function Description
9
5
+S
DC OK
Positive sensing for remote sense.
“DC OK” signal is a TTL level, referenced to pin 1&2 (GND).
Output modules turn on=4.5~5.5V, turn off=0~0.5V. The maximum sourcing current is 10mA (4.5~5.5V).
8
PV
Connection for output voltage programming, referenced to pin 1&2 (GND)
6
3
10
CS
RC2
-S
Current sharing signal. When units are connected in parallel , the CS pins of the units should be connected to allow for current balance
between units. Referenced to pin 1&2 (GND)
Negative sensing for remote sense.
Turns the output on and off by electrical or dry contact between pin 3(RC2) and pin 1&2(GND).
Open: Power ON; Short: Power OFF.
2
4
1
GND
Vcc 2
GND
Ground.
Auxiliary voltage output, 4.5~5.5V, referenced to pin 1&2 (GND).The maximum load current is 10mA.
Ground.
7PC
Connection for output current programming, referenced to pin 1&2 (GND)
Function Description of CN81(NMS-240)
Pin No. Function Description
5DC OK1
DC OK2
“DC OK1” signal is a TTL level, referenced to pin 1 (GND1).
Output modules V1 turn on=4.5~5.5V, turn off=0~0.5V. The maximum sourcing current is 10mA (4.5~5.5V).
“DC OK2” signal is a TTL level, referenced to pin 2 (GND2).
Output modules V2 turn on=4.5~5.5V, turn off=0~0.5V. The maximum sourcing current is 10mA (4.5~5.5V).
6
3
4
RC2
RC3
Turns the output V1 on and off by electrical or dry contact between pin 3 (RC2) and pin 1 (GND1).
Open: Power ON; Short: Power OFF.
Turns the output V2 on and off by electrical or dry contact between pin 4 (RC3) and pin 2 (GND2).
Open: Power ON; Short: Power OFF.
2
1
GND2
GND1
Ground(-V2).
Ground(-V1).
7,8,9,10 NC -----
Function Description of CN81(NMD-240)
DC Output Terminal Pin No. Assignment
Assignment
Output number LED displayOutput voltage adjustable by SVR
V1 LD613~30V by VR61
V2 LD713~30V by VR71
Color Diagram Wire range Wire strip length
20~26AWG 10mm
+V1 Orange
-V1 Gray
+V2 Orange
-V2 Gray
37.9
-V2
+V2
-V1
+V1
VR71
VR61
118.5
NMD-240 Output Module
20
LD61
CN81
46810
97
5
3
2
1
5.35
10
17.25
24
2.54
LD71
6
4.Product Specifications
4.1 Front-End Specification
NMP650 (4 Slots) NMP1K2 (6 Slots)
MODEL
VOLTAGE RANGE Note.6
FREQUENCY RANGE
POWER FACTOR
EFFICIENCY(Typ.) Note.4
AC CURRENT
INPUT
INRUSH CURRENT
LEAKAGE CURRENT
90 ~ 264VAC 120 ~370VDC
47 ~ 63Hz
PF>0.95/230VAC PF>0.98/115VAC at full load
6.7A/230VAC 13.5A/115VAC
40A/230VAC 25A/115VAC
3.5A/230VAC 7.5A/115VAC
8.%8 5 , full case load with each type of module at nominal voltage
91%, full case load with H / K module at nominal 24V / 48V only
40A/230VAC 25A/115VAC
Earth leakage current <400uA / 264VAC, Touch current <100uA/264VAC
1200W max.
5V @ 2A; tolerance 10%; ripple: 50mVp-p(max.)±
REMOTE CONTROL
ALARM SIGNAL
AUXILIARY POWER(AUX)
SAFETY STANDARDS
WORKING TEMP.
WORKING HUMIDITY
STORAGE TEMP., HUMIDITY
TEMP. COEFFICIENT
VIBRATION
FUNCTION
-30 ~ +70 (Derate at 50 , refer to "Derating Curve")℃℃
20 ~ 90% RH non-condensing
RC+/RC-: Short, Power ON RC+/RC-: Open, Power OFF
TTL signal output for over temperature alarm. Please refer to the Function Manual.
5V @ 1.5A ; tolerance 10%; ripple: 50mVp-p (max.)±
-40 ~ +85 , 10 ~ 95% RH non-condensing
±℃ 0.03%/ (0 ~ 50 )
10~500Hz, 2G 10min./1 cycle, 60 min. each along X, Y, Z axes.
ANSI/AAMI ES60601-1, Ed. 3.1,UL62368-1; TUV EN60601-1, Ed. 3.1, EN62368-1; IEC 60601-1, Ed. 3.1, IEC 62368-1,TUV
IEC60950-1; EAC TP TC 004 approved
ISOLATION LEVEL
WITHSTAND VOLTAGE
Primary-Secondary: 2x MOPP, Primary-Earth: 1x MOPP
I/P-O/P: 4KVAC I/P-FG: 2KVAC O/P-FG: 0.5KVAC
ENVIRONMENT
SAFETY &
OUTPUT 650W max.
Shut down o/p voltage, recovers automatically after temperature goes down
TOTAL OUTPUT POWER
PROTECTION
OVER TEMPERATURE
ISOLATION RESISTANCE I/P-O/P, I/P-FG, O/P-FG: 100M Ohms / 500VDC / 25 / 70% RH
EMC
(Note 5)
OTHERS DIMENSION
PACKING
250*89*41mm (L*W*H) 250*127*41mm (L*W*H)
1.45Kg (typ.); 9pcs / 14Kg / 0.98CUFT 2Kg (typ.); 6pcs / 13Kg / 0.88CUFT
Parameter
Parameter
ESD
RF field
EFT/ Burst
Surge
Conducted
Magnetic Field
Voltage Dips and Interruptions
Conducted
Radiated
Harmonic Current
Voltage Flicker
Standard
Standard
EN55032 (CISPR32) / EN55011 (CISPR11)
EN55032 (CISPR32) / EN55011 (CISPR11)
EN61000-3-2
EN61000-3-3
EN61000-4-2
EN61000-4-3
EN61000-4-4
EN61000-4-5
EN61000-4-6
EN61000-4-8
EN61000-4-11
Test Level / Note
Test Level / Note
Class B
Class B
Class A
-----
EMC IMMUNITY
EMC EMISSION
EN60601-1-2, EN55024, SEMI F47
Level 4, 15KV air; Level 4, 8KV contact
Level 3, 10V/m
Level 3, 2KV
Level 4, 4KV/Line-FG; 2KV/Line-Line
Level 2, 3V
Level 4, 30A/m
100% dip 1 periods, 30% dip 25 periods,
100% interruptions 250 periods
9%0.5 , full case load with H / K module at nominal 24V / 48V only
7
4.2 Single Output Module Specification
OUTPUT
(NMS-240)
DC VOLTAGE
CONFIGURATION CODE
MODEL NMS-240-05 NMS-240-12 NMS-240-24 NMS-240-48
5V
C
12V
E
24V
H
48V
K
36A 20A 10A 5A
0 ~ 36A 0 ~ 20A 0 ~ 10A
0 ~ 5A
180W
100mVp-p
3 ~ 6V
240W
150mVp-p
6~15V
240W
150mVp-p
15~30V
240W
250mVp-p
30~55V
±2.0% ±1.0% ±1.0% ±1.0%
±0.5% ±0.3% ±0.2% ±0.2%
±1.0% ±0.5% ±0.5% ±0.5%
1500ms, 60ms at full load
16ms/230VAC @ 75% total output power 10ms/230VAC @ total output power
RATED CURRENT
CURRENT RANGE
RATED POWER
RIPPLE & NOISE (max.) Note.2
VOLTAGE ADJ. RANGE
VOLTAGE TOLERANCE Note.3
LINE REGULATION
LOAD REGULATION
SETUP, RISE TIME
HOLD UP TIME (Typ.)
105 ~ 125% rated output power
OVERLOAD
OVER VOLTAGE
PROTECTION
Protection type : Shut down o/p voltage, re-power on to recover
Protection type: constant current limiting protection
6.3 ~ 8V 15.5 ~ 20V
6 ~ 15V
31 ~ 37V
15 ~ 30V
57 ~ 66V
30 ~ 55V
REMOTE ON/OFF CONTROL
REMOTE SENSE
OUTPUT VOLTAGE PROGRAMMABLE(PV)
OUTPUT CURRENT PROGRAMMABLE(PC)
AUXILIARY POWER(AUX)
CURRENT SHARING(CS)
DC OK SIGNAL
RC+/RC-: Open, Power ON RC+/RC-: Short, Power OFF
Compensate voltage drop on the load wiring up to 0.5V.
Adjustment of output voltage is allowable. Please refer to the Function Manual.
3 ~ 6V
Adjustment of constant current level is allowable. Please refer to the Function Manual.
5V@10mA; tolerance 10%, ripple: 50mVp-p (max.)±
Please refer to the Function Manual.
Output modules turn on=4.5 ~ 5.5V, turn off=0 ~ 0.5V. Please refer to the Function Manual.
FUNCTION
OTHERS DIMENSION
PACKING
118.5*37.9*18mm (L*W*H)
0.142Kg (typ.); 72pcs / 11.2Kg / 1.04CUFT
NOTE 1. All parameters NOT specifically mentioned are measured at 230VAC input, rated load and 25 of ambient temperature.
2. Ripple & noise are measured at 20MHz of bandwidth by using a 12" twisted pair-wire terminated with a 0.1uf & 47uf parallel capacitor.
3. Tolerance: includes set up tolerance, line regulation and load regulation.
4. NMP650: The efficiency changes by installing different output modules. The following combination is chosen when fitting different types of module:
5V (Voltage code C)*1, 12V (Voltage code E)*1, 24V (Voltage code H)*1, 48V (Voltage code K)*1. (650W max.)
NMP1K2: The efficiency changes by installing different output modules. The following combination is chosen when fitting different types of module:
5V (Voltage code C)*1, 12V (Voltage code E)*1, 24V (Voltage code H)*2, 48V (Voltage code K)*2. (1200W max.)
The hold up time of the combination above is 16ms/230vac @ 75% total output power 10ms/230VAC @ total output power.
5. have The power supply is considered a component which will be installed into a final equipment. All the EMC tests been executed by mounting the unit on
a mm* mm metal plate with 1mm of thickness. The final equipment must be re-confirmed that it still meets EMC directives.360 720 For guidance on how to
perform these EMC tests, please refer to EMI testing of component power supplies. (as available on http://www.meanwell.com)
6. De-rating may be needed under low input voltages. Please check the derating curve for more details.
7. Under parallel operation ripple of the output voltage may be higher than the SPEC at light load condition.
8. The ambient temperature derating of 3.5 /1000m with fanless models and of 5 /1000m with fan models for operating altitude higher than 2000m (6500ft).℃℃
Product Liability Disclaimer For detailed information, please refer to https://www.meanwell.com/serviceDisclaimer.aspx
Shut down o/p voltage, recovers automatically after temperature goes down
OVER TEMPERATURE
8
4.3 Dual Output Module Specification
OUTPUT
(NMD-240)
DC VOLTAGE
OUTPUT NUMBER
MODEL NMD-240
30V
V1
30V
V2
5A 5A
0 ~ 5A 0 ~ 5A
150W
240W
250mVp-p
3 ~ 30V
150W
250mVp-p
3 ~ 30V
±2.0% ±2.0%
±0.5% ±0.5%
±1.0% ±1.0%
1500ms, 60ms at full load
16ms/230VAC @ 75% total output power 10ms/230VAC @ total output power
RATED CURRENT (max.)
CURRENT RANGE
RATED POWER (max.)
COMBINED POWER (max.)
RIPPLE & NOISE (max.) Note.2
VOLTAGE ADJ. RANGE
VOLTAGE TOLERANCE (max.)
Note.3
LINE REGULATION
LOAD REGULATION
SETUP, RISE TIME
HOLD UP TIME (Typ.)
105 ~ 125% rated output power
OVERLOAD(V1,V2)
OVER VOLTAGE(V1,V2)
PROTECTION
Protection type : Shut down o/p voltage, re-power on to recover
Protection type: constant current limiting protection
31 ~ 37V 31 ~ 37V
REMOTE ON/OFF CONTROL(V1,V2)
DC OK SIGNAL(V1,V2)
RC+/RC-: Open, Power ON RC+/RC-: Short, Power OFF
Output modules turn on=4.5 ~ 5.5V, turn off=0 ~ 0.5V. Please refer to the Function Manual.
FUNCTION
OTHERS DIMENSION
PACKING
118.5*37.9*18mm (L*W*H)
0.152Kg (typ.); 72pcs / 11.9Kg / 1.04CUFT
NOTE 1. All parameters NOT specifically mentioned are measured at 230VAC input, rated load and 25 of ambient temperature.
2. Ripple & noise are measured at 20MHz of bandwidth by using a 12" twisted pair-wire terminated with a 0.1uf & 47uf parallel capacitor.
3. Tolerance: includes set up tolerance, line regulation and load regulation.
4. NMP650: The efficiency changes by installing different output modules. The following combination is chosen when fitting different types of module:
5V (Voltage code C)*1, 12V (Voltage code E)*1, 24V (Voltage code H)*1, 48V (Voltage code K)*1. (650W max.)
NMP1K2: The efficiency changes by installing different output modules. The following combination is chosen when fitting different types of module:
5V (Voltage code C)*1, 12V (Voltage code E)*1, 24V (Voltage code H)*2, 48V (Voltage code K)*2. (1200W max.)
The hold up time of the combination above is 16ms/230vac @ 75% total output power 10ms/230VAC @ total output power.
5. have The power supply is considered a component which will be installed into a final equipment. All the EMC tests been executed by mounting the unit on
a mm* mm metal plate with 1mm of thickness. The final equipment must be re-confirmed that it still meets EMC directives.360 720 For guidance on how to
perform these EMC tests, please refer to EMI testing of component power supplies. (as available on http://www.meanwell.com)
6. De-rating may be needed under low input voltages. Please check the derating curve for more details.
7. Under parallel operation ripple of the output voltage may be higher than the SPEC at light load condition.
8. The ambient temperature derating of 3.5 /1000m with fanless models and of 5 /1000m with fan models for operating altitude higher than 2000m (6500ft).℃℃
Product Liability Disclaimer For detailed information, please refer to https://www.meanwell.com/serviceDisclaimer.aspx
Shut down o/p voltage, recovers automatically after temperature goes down
OVER TEMPERATURE(V1,V2)
CONFIGURATION CODE D
Nan Unear Nan Unear
5.Functions
5.1 Input Voltage
5.2 Inrush Current Limiting
5.3 Output Voltage / Current Adjustment
Input voltage range is 90~264VAC or 120~370VDC.
To ensure proper operation, input voltage must be within the specified range. An incorrect input voltage may cause the unit
operate improperly, lose PFC function, or even damaged in worst case scenario.
The efficiency will be lower at low input voltage range, so the output power needs to be de-rated for input less than 110VAC.
Please refer to Section 7.3 De-rating for more information.
This unit has built-in inrush current limiting circuit.
5.3.1 Output Voltage Adjustment via SVR
5.3.2 -Output Voltage Programming ( , NMS 240 only)PV
The output voltage of each module may be trimmed by turning potentionmeter: VR60 for NMS-240 and VR61/71 for NMD-240,
near the output terminals. Turning the potentionmeters clockwise increases the voltage, and turning the potentionmeter
counter-clockwise reduces the voltage.
Connect the external DC source to PV (PIN8) and GND (PIN 1 or 2) on CN81, as shown in Figure 5-1(left).
Relationship between the output voltage and the external DC voltage is shown in Figure 5-1(right).
When increasing the output voltage, the load current needs to be reduced accordingly to avoid exceeding the maximum output power.
When increasing the output voltage, the load current needs to be reduced accordingly to avoid exceeding the maximum output power.
When reducing the output voltage, the load current cannot exceed the maximum rated output current.
If adding an external switch (relay/ circuit breaker) at the input side is required, choose switches that are able to withstand inrush
current of the units.
Since the inrush limiting circuit mainly consists of thermistors and a relay, inrush current will be much higher than the specified value
if input thermistor is not allowed sufficient time to cool down. After turning off the AC input power, a 10 seconds cool down period is
recommended before turning it on again.
NMS-240
GND
( PIN1 or 2)
PV
( PIN8)
GND
1
GND
2
RC2
VCC2 CS
DC_OK
PC
CN81
PV
+S
-S
9
10
EXTERNAL
VOLTAGE (DC)
EXTERNAL VOLTAGE (VDC)
122.5345 PV(Referenced to GND)
100
Vout
Non-Linear
12V only
(E code)
80
60
40
50
20
OUTPUT VOLTAGE (%)
+V
-V
-
+
LOAD
CN81
46810
97
5
3
2
1
VR60
LED
Figure 5-1
533.. Constant Current Level Programming ( C, NMS 240 only)P-
The constant current level can be trimmed to 40~100% of the rated current by applying external DC voltage. Connection diagram
and relationship curve are shown in Figure 5-2.
Figure 5-2
NMS-240
GND
( PIN1 or 2)
PC
( PIN7)
GND
1
GND
2
RC2
VCC2 CS
DC_OK
PC
CN81
PV
+S
-S
9
10
EXTERNAL
VOLTAGE (DC)
EXTERNAL VOLTAGE (VDC)
1.8 5 6 PC(Referenced to GND)
115
Iout
OLP 115%(typ.)
Non-Linear
80
100
60
40
20
OUTPUT CURRENT (%)
+V
-V
-
+
LOAD
CN81
46810
97
5
3
2
1
VR60
LED
9
5.7 Fan-lock Protection
Figure 53-
There is a built-in fan-lock protection circuit. The output of all modules will shut off when the DC fan stops operating (fan-lock, loose
connector, or broken wires). Please turn off the AC power and remove the conditions causing fan-lock. If there are no observable
causes for fan-lock, please remove the unit from your system and send back to our local distributor or MEAN WELL for repair.
5.8 Remote Control
There are built-in remote ON/OFF controls for Front-End and individual output modules.
Connection diagram and control logics are shown below.
Figure 5-4 shows RC1 (CN32 PIN6) and GND-P (CN32 PIN3) connection diagram.
5.6 Over Temperature Protection (OTP) and T-Alarm
The Front-End has built-in thermal detection circuit. Once the internal temperature exceeds a preset value, there will be a “HIGH”
When the internal temperature is within a normal value, the T-Alarm signal will be a “LOW” signal (-0.1~0.5V).
◎.T-Alarm's maximum sourcing current is 10mA
Figure 5-3 shows T-Alarm (CN32 PIN5) and GND-PC (CN32 PIN3 or 4) connection diagram.
signal (4.5~5.5V) sent out through T-ALARM for end system to respond. If the internal temperature continues to increase and exceeds
the “safe limit” value, then the output will shut down automatically. Please switch off the AC input, remove all possible causes, and
then leave the unit to cool down to a normal working temperature (approximately 10 minutes ~ 1 hour) before re-power on.
T-Alarm Signal Voltage Internal Temperature (U702)
4.5~5.5V
4.5~5.5V
0~0.5V
Exceeds the limit of T-Alarm
Exceeds the "safe limit"
The internal temperature is normal
Output Status
OFF
ON
ON
NMP1K2
1
T-Alarm
( PIN5)
GND-P
( PIN3 or 4)
5
2
6
CN32 CN32
6 6
5 5
2 2
1 1
TB1 TB1
N N
L L
+5V
-AUX-P
+5V
-AUX-P
RC1
GND-P
T-Alarm
GND-P
CN32
NMP650
NMP1K2 NMP650
1GND-P
(PIN3)
CN32
RC1
(PIN6)
5
2
6
5.8.1 ON / OFFGlobal
Connection Status Output Status
Open (SW OFF)
Short (SW ON)
OFF
ON
CN32 CN32
6 6
5 5
2 2
1 1
TB1 TB1
N N
L L
+5V
-AUX-P
GND-P
+5V
-AUX-P
GND-P
RC1 T-Alarm
SW
Figure 54-
10
5.5 Over Voltage Protection
Each output module has built-in over voltage protection.
The OVP trigger points vary depending on the different output modules. Please refer to 4.2 NMS-240 Single Output Module
Specification or 4.3 NMD-240 Dual Output Module Specification for more details.
Once OVP is triggered, leave the units off for 10 seconds before recycling AC power to power on the unit.
5.4 Short-Circuit and Over Current Protection
Output modules have built-in short circuit and over current protections. The protection activates when the output is short-
circuited or the output current exceeds 115% ± 10% of the rated output current. The output will automatically recover when the
fault condition is removed.
raw E wjfi u an :n _._J r1|fi F T M
Figure 55-
Connection Status Output Module Status
Short (SW ON)
Open (SW OFF)
OFF
ON
5.8.2 Single Output Module ON/OFF
The NMS-240 modules can be turned ON/OFF individually by using the “ON/OFF” function.
Figure 5-5 shows RC2 (CN81 PIN3) and GND (CN81 PIN1 or 2) connection diagram.
The CN32 connection accessory (included in packaging) must be connected when using the local ON/OFF function.
NMS-240
GND
( PIN1 or 2)
RC2
( PIN3)
GND
1
GND
2
RC2
VCC2 CS
DC_OK
PC
CN81
PV
+S
-S
9
10
SW +V
-V
-
+
LOAD
CN81
46810
97
5
3
2
1
VR60
LED
Figure 56-
5.8.3 Dual Output Module ON/OFF
The two channels of NMD-240 modules can be turned ON/OFF individually.
Figure 5-6 shows RC2(CN81 PIN3) to GND1 (CN81 PIN1) and RC3(CN81 PIN4) to GND2 (CN81 PIN2) connection diagram.
CN81
46810
97
5
3
2
1
Between RC2 (CN81-PIN3) and GND1 (CN81-PIN1)
Between RC3 (CN81-PIN4) and GND1 (CN81-PIN2)
Output Modules Status (V1)
Output Modules Status (V2)
SW2 ON (short)
SW3 ON (short)
SW2 OFF (open)
SW3 OFF (open)
Output V1 OFF
Output V2 OFF
Output V1 ON
Output V2 ON
GND1
1
GND2
2
RC2
RC3
DC_OK1
DC_OK2
NC
CN81
NC
NC
NC
9
10
SW2
SW3 -V2
+V2
-V1
+V1
VR71
VR61
LD71
LD61
GND1
(PIN1)
GND2
(PIN2)
RC2
(PIN3)
RC3
(PIN4)
11
NMD-240
12
5-8Figure
510. Auxiliary Power(NMS-240 only)
Front-End and NMS-240 modules have auxiliary power for control circuitry and low power peripherals.
Front-End: + 5V- Aux- P is 5V/ 2A (NMP1K2) or 5V/ 1.5A (NMP650) auxiliary output, referenced to GND- P.
NMP1K2 NMP650
1
RC1
( PIN6)
GND-P
(CN32 - PIN3&4)
+5V-AUX-P
( PIN1 & 2)
5
2
6
CN32 CN32
6 6
5 5
2 2
1 1
TB1 TB1
N N
L L
+5V
-AUX-P
+5V
-AUX-P
RC1
GND-P
T-Alarm
GND-P
CN32
GND
1
GND
2
RC2
VCC2 CS
DC_OK
PC
CN81
PV
+S
-S
9
10
+S
( PIN9)
-S
( PIN10)
Sense lines should
be twisted in pairs
CN81
46810
97
5
3
2
1
+V
-V
-
+
LOAD
VR60
LED
Figure 5-7 Connection diagram when using remote sense function
5.9 Output Module Remote Sense(NMS-240 only)
When using this function, the sensing wires should either be twisted or shielded to prevent external noise interference (refer to Figure 5-7).
Built-in remote sense circuit that is able to compensate voltage drop up to 0.5V.
When not using this function, leave the connection open circuit, or connect +S to +V and -S to -V at the output.
Voltage drop across the output wires must be limited to less than 0.5V. Also wires with adequate current rating should be used
between +V, -V and the loads. Please firmly connect the output wires to prevent them from loosing, or the power supply may be
out of order.
NMS-240 module: VCC2 is 5V/ 10mA auxiliary output, referenced to GND.
GND
( PIN1 or 2)
VCC2
(PIN4)
GND
1
GND
2
RC2
VCC2 CS
DC_OK
PC
CN81
PV
+S
-S
9
10
NMS-240
+V
-V
-
+
LOAD
CN81
46810
97
5
3
2
1
VR60
LED
Figure 5 9-
NMS-240
E
511. DC-OK Signal and LED Indicator
DC-OK signal and LED indicator are both used to indicate operation status of the output module. When the output module is
operating properly, the DC-OK signal is "HIGH" (4.5~5.5V) and the LED indicator is lit, otherwise, the logics are reversed.
DC-OK is a TTL signal, and the maximum source current is 10mA (4.5~5.5V).
Figure 510-
Figure 511-
NMS-240
NMD-240
Between DC OK (PIN5) and GND (PIN1 or 2)
Between DC OK1 (PIN5) and GND1 (PIN1)
Between DC OK2 (PIN6) and GND2 (PIN2)
Output Modules Status (NMS-240)
Output Modules Status (V1)
Output Modules Status (V2)
4.5~5.5V
4.5~5.5V
4.5~5.5V
0~0.5V
0~0.5V
0~0.5V
OFF
Output V1 OFF
Output V2 OFF
ON
Output V1 ON
Output V2 ON
GND
( PIN1 or 2) DC_OK
( PIN5)
GND
1
GND
2
RC2
VCC2 CS
DC_OK
PC
CN81
PV
+S
-S
9
10
NMS-240
NMD-240
+V
-V
-
+
LOAD
CN81
46810
97
5
3
2
1
VR60
LD60
CN81
46810
97
5
3
2
1
CN81
-V2
+V2
-V1
+V1
VR71
VR61
LD71
LD61
GND1
1
GND2
2
RC2
RC3
DC_OK1
DC_OK2
NC
NC
NC
NC
9
10
GND1
(PIN1)
GND2
(PIN2)
DC_OK1
(PIN5)
DC_OK2
(PIN6)
13
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521. Parallel Operation(NMS-240 only)
Up to 4 (NMP650) or 6 (NMP1K2) modules of the same output voltage rating may be connected in parallel.
The combined operation output power of all modules must be less than the Front-End's rated maximum output power
(NMP650: 650W; NMP1K2: 1200W .)
In parallel operation, the parallel accessory (copper plate) should be used to connect the +V and -V of all modules in parallel.
Refer to A1.1 for more details.
In parallel operation, CS and GND pins of CN81 of all modules need to be connected in parallel as shown in Figure 5-12. Refer
to A1.2 for more details on the connection accessory.
DC OK signal of power modules in parallel shall turn ON/OFF simultaneously as well.
condition. The other NMS-240(slaves) may go into standby mode.
The short protection of C module (5V) or E module (12V) during current sharing is Hiccup mode or constant current limiting.
In parallel connection maybe only one NMS-240(master) operates if the total output load is less than 10% of rated load
Figure 512-
531. Series Operation
Higher output voltage can be acquired by connecting output modules in series.
Total output current should not exceed the current rating of the lowest rated module that is connected in seres.
Difference of rise time in each module may lead to step/ stair shape output voltage waveform during turn on.
The series voltage should be less than 60V in order to satisfy IEC60950-1 SELV (Safety Extra Low Voltage) requirement.
Before making the parallel connection, adjust the voltage of each module individually to the desired voltage, and ensure the
difference in voltage is less than 0.2V.
Remote control shall simultaneously turn ON/OFF all power modules that are in parallel. Per the same control logic, LED and
When power modules are in parallel, output current programmable (PC) function shall NOT be in use.
Under parallel operation, there may be a single NMS-240 (the master) that will provide output while the rest of the modules
14
STEP 1:
STEP 2:
6.Assembly
6.1 Assembly Procedures
For first time assembly, please remove the Front-End from packaging and proceed to STEP 2.
If the NMP unit has been configured and assembled previously, please turn off the unit and remove all input/ output connections.
Remove 2 screws each from left and right sides. For reconfiguration, please remove screws from top cover (NMP650: 4 screws;
NMP1K2: 6 screws). Before lifting top cover, make sure all screws have been removed.
Figure 6-1 First time assembly
Figure 6-2 Reconfiguration - assembled previously
Remove: Lift output module slightly.Install: Insert each module in a straight and leveled manner. 11
1
1
22
22
All 6 pins must be inserted into the correct sockets. Grab the circled location and lift module
The power supply unit may remain hot after power off, please leave the unit to cool for at least 5 minutes before assembly.
STEP 3:
After removing the top cover, output modules may be installed or removed. Please refer to diagrams below for installation and
removal instructions. For first time assembly, it is recommended to install in order from right to left, starting with slot 4 (NMP650) or
slot 6 (NMP1K2). When installing a module, make sure all 6 pins of the connectors are inserted into the correct sockets. For modules
that are installed in the left most and right most slots, ensure the insulation Mylar films are positioned correctly. For empty slot(s),
blank module(s) (BLANK-NMS240) must be installed to ensure proper airflow throughout the unit.
15
NMP1K2
No. 28Wuquan 3rd Rd., Wugu Dist., New Taipei City 24891, Taiwan,
MEAN WELL ENTERPRISES CO.,LTD.
Manual:www.meanwell.com/manual.html
2
Bauartgepruft
Sicherheit
Regelmabige
~
Produktions
uberwachung
0
Total Output Power: 960W
max. ()
For input 100-109VAC
Input:
110-240VAC 13.5-6.70A
50/60Hz
Input:
100-109VAC 12.6-11.5A
50/60Hz
Total Output Power: 1200W
max. ()
For input 110-240VAC
EN 60601-1
IEC 60601-1
8
10
E227340E183223
Total Output Power: 960W
max. ( )
For input 100-109VAC
Input:
110-240VAC 13.5-6.70A
50/60Hz
Input:
100-109VAC 12.6-11.5A
50/60Hz
Total Output Power: 1200W
max. ( )
For input 110-240VAC
NMP1K2
No. 28 Wuquan 3rd Rd., Wugu Dist., New Taipei City 24891, Taiwan,
MEAN WELL ENTERPRISES CO.,LTD.
Manual:www.meanwell.com/manual.html
EN 60601-1
IEC 60601-1
8
10
E227340E183223
Bauartgepruft
Sicherheit
Regelmabige
~
Produktions
uberwachung
0
2
M3 6*
M3 3 3*.
‘4 IIEIEIEIED DI]
16
STEP 4:
Once all modules have been installed or reconfigured, place the top cover back and secure with screws as shown below. While
Note : Mylar films need to fold over the modules
Note: Make sure all modules are slotted into the notches circled in red
securing the top cover, ensure all modules are held secure by the notches and screws. Please set the electric screw driver's
torque setting to 6kgf-cm.
STEP 5:
Apply corresponding output module label stickers to the Front-End top cover.
Total Output Power: 960W
max. ( )
For input 100-109VAC
Input:
110-240VAC 13.5-6.70A
50/60Hz
Input:
100-109VAC 12.6-11.5A
50/60Hz
Total Output Power: 1200W
max. ( )
For input 110-240VAC
NMP1K2
No. 28 Wuquan 3rd Rd., Wugu Dist., New Taipei City 24891, Taiwan,
MEAN WELL ENTERPRISES CO.,LTD.
Manual:www.meanwell.com/manual.html
EN 60601-1
IEC 60601-1
8
10
E227340 E183223
Bauartgepruft
Sicherheit
Regelmabige
~
Produktions
uberwachung
0
2
C81N
+V1
+V2
SLOT1
234
SLOT1
SLOT2 SLOT3 SLOT4
NMP1K2- -
SLOT5 SLOT6
56
D
30V
30V
5A
5A
D
-
-
+
+
36A
C
-
+
5V
12V
20A
E
-
+
24V
10A
H
-
+
48V 48V
5A 5A
KK
--
++
C81N
+V
Mylar film
Mylar film
M3 6*
M3 3 3*.
Total Output Power: 960W
max. ( )
For input 100-109VAC
Input:
110-240VAC 13.5-6.70A
50/60Hz
Input:
100-109VAC 12.6-11.5A
50/60Hz
Total Output Power: 1200W
max. ( )
For input 110-240VAC
NMP1K2
No. 28Wuquan 3rd Rd., Wugu Dist., New Taipei City 24891, Taiwan,
MEAN WELL ENTERPRISES CO.,LTD.
Manual:www.meanwell.com/manual.html
EN 60601-1
IEC 60601-1
8
10
E227340 E183223
Bauartgepruft
Sicherheit
Regelmabige
~
Produktions
uberwachung
0
2
17
Output Module in Series Connection(NMS-240 only)
Output Module in Parallel Connection(NMS-240 only)
NOTE:
Recommended torque setting for output terminal screws is 6kgf-cm
Recommended torque setting for output terminal screws is 6kgf-cm
Total output current should not exceed the current rating of the lowest rated module that is connected in series.
Difference of rise time in each module may lead to step/ stair shape output voltage waveform during turn on.
The series voltage should be less than 60V in order to satisfy IEC60950-1 SELV (Safety Extra Low Voltage) requirement.
◎.Series connection accessory: FAS-005
STEP 6:
Connect AC power to the NMP unit and test each module to ensure proper operation. on moduleThe green LED indicator should light up.
Measure the output voltage of each module and make sure it is within the specified output voltage tolerance range. If the load requires
a different voltage that is within the specified voltage adjustment range, adjust the voltage by turning the SVR as shown below. Turning
the SVR clockwise will increase the voltage, and turning the SVR counter-clockwise will decrease the voltage. Once the output voltages
of all modules have been tested and adjusted to the desired values, the output configuration is done.
Higher output voltage can be acquired by connecting adjacent output modules in series. Example: if a load requires 60V to
power, then two NMS-240-24 can be connected in series for this requirement. First, follow assembly steps STEP 1-STEP 6 and
install the two NMS-240-24 modules in slot 1 and slot 2. Second, adjust the output voltage of each module to 30V via SVR.
Finally, use the FAS-005 series connection accessory to connect the -V terminal of slot 1 to the +V terminal of slot 2. Measure
and verify that the voltage across +V terminal of slot 1 and - V terminal of slot 2 is 60V.
Higher output current can be acquired by connecting adjacent output moduels in prallel. Example: connecting three NMS-240-
12 in parallel. First, follow assembly steps STEP 1-STEP 6 and install the three NMS-240-12 modules in slot 1, slot 2, and slot
3. Second, measure and adjust the voltage of each modules to be within 0.2V. Finally, use two 3-unit parallel accessory (FAP-
010) to connect the +V and -V terminals of the three modules (left figure). The CS and GND pins of CN81 also need to be
connected together using accessory NMS-240-P3 (right figure), as shown below.
NMS-240 NMD-240
Total Output Power: 960W
max. ( )
For input 100-109VAC
Input:
110-240VAC 13.5-6.70A
50/60Hz
Input:
100- 109VAC 12.6 -11.5A
50/60Hz
Total Output Power: 1200W
max. ( )
For input 110-240VAC
NMP1K2
No. 28 Wuquan 3rd Rd., Wugu Dist., New Taipei City 24891, Taiwan,
MEAN WELL ENTERPRISES CO.,LTD.
Manual:www.meanwell.com/manual.html
EN 60601-1
IEC 60601-1
8
10
E227340 E183223
Bauartgepruft
Sicherheit
Regelmabige
~Produktions
uberwachung
0
2
18
62. Assembly Example
NMP1K2-HHCEK#-01
a.Remove NMP1K2 from the packaging. Since this is first time assembly, all slots are empty. Remove the 2 screws each from left and
right sides, and remove the top cover.
two NMS-240-24.
b.Install modules to the NMP1K2 Front-End in order from right to left: Blank Module, NMS-240-48, NMS-240-12, NMS-240-5V, and
Slots
Models
Parallel ◎◎
SLOT 1 SLOT 2 SLOT 3 SLOT 4 SLOT 5 SLOT 6
-----
Blank48V @ 5A12V @ 20A5V @ 36A24V @ 10A24V @ 10A
---------------
If 4, 5 or 6 units need to be connected in parallel, please use the configurations shown below.
2x2x2
3x2x2 3x2x3
NOTE:
Up to 4 (NMP650) or 6 (NMP1K2) modules of the same output voltage rating may be connected in parallel.
Before making the parallel connection, adjust the voltage of each modules individually to the desired voltage, and ensure the
difference in voltages is less than 0.2V.
The combined operation output power of all modules must be less than the Front-End's rated maximum output power
(NMP650: 650W; NMP1K2: 1200W).
In parallel operation, the parallel accessory (copper plate) should be used to connect the +V and -V of all modules in parallel, 2-unit
parallel accessory: FAP-009, 3-unit parallel accessory: FAP-010.
In parallel operation, CS and GND pins of CN81 of all modules need to be connected in parallel. MEAN WELL offers connection
accessories for 2 units (NMS-240-P2), 3 units (NMS-240-P3), 4 units (NMS-240-P4), 5 units (NMS-240-P5), and 6 units (NMS-240-P6).
The overload protection of C module (5V) during current sharing is Hiccup mode.
1
2
Total Output Power: 960W
max. ()
For input 100-109VAC
Input:
110-240VAC 13.5-6.70A
50/60Hz
Input:
100-109VAC 12.6-11.5A
50/60Hz
Total Output Power: 1200W
max. ()
For input 110-240VAC
NMP1K2
No. 28Wu
quan 3rd Rd., Wugu Dist., New Taipei City 24891, Taiwan
,
MEAN WELL ENTERPRISES CO.,LTD.
Manual:www.meanwell.com/manual.html
EN 60601-1
IEC 60601-1
8
Bauartgepruft
Sicherheit
Regelmabige
~Produktions
uberwachung
8
10
E227340E183223
mmmrmm mm a , |:|§,
19
c.Place the top cover and secure with screws.
Note: M3 3 3:*.Screws each from left and right
Top cove screws:*M3 6
e Apply AC power to the NMP unit, and measure the output voltages to ensure each module is fucntinoing properly. Also, make sure.
the output voltage difference between slot 1 and slot 2 is less than 0.2V.
Use two 2-unit parallel copper plates accessory, FAP-009, to connect the +V and -V terminals of slot 1 and slot 2, and use accessory,
and GND pins of CN81 in parallel.
d.Apply the corresponding product model label to the Front-End top cover.
1
2
Total Output Power: 960W
max. ()
For input 100-109VAC
Input:
110-240VAC 13.5-6.70A
50/60Hz
Input:
100-109VAC 12.6-11.5A
50/60Hz
Total Output Power: 1200W
max. ()
For input 110-240VAC
NMP1K2
No. 28Wuquan 3rd Rd., Wugu Dist., New Taipei City 24891, Taiwan,
MEAN WELL ENTERPRISES CO.,LTD.
Manual:www.meanwell.com/manual.html
EN 60601-1
IEC 60601-1
8
10
E227340 E183223
Bauartgepruft
Sicherheit
Regelmabige
~Produktions
uberwachung
20
SLOT1 SLOT2
234
SLOT1
NMP1K2- - #01KECHH
#
5 6
SLOT3 SLOT4 SLOT6
36A
C
-
+
5V
12V
20A
E
-
+
24V 24V
10A 10A
HH
--
++
SLOT5
48V
5A
K
-
+
C81N
+V1
+V2
C81N
+V
Total Output Power: 960W
max. ()
For input 100-109VAC
Input:
110-240VAC 13.5-6.70A
50/60Hz
Input:
100-109VAC 12.6-11.5A
50/60Hz
Total Output Power: 1200W
max. ()
For input 110-240VAC
NMP1K2
No. 28W
uquan 3rd Rd., Wugu Dist., New Taipei City 24891, Taiwan
,
MEAN WELL ENTERPRISES CO.,LTD.
Manual:www.meanwell.com/manual.html
EN 60601-1
IEC 60601-1
8
10
E227340E183223
Bauartgepruft
Sicherheit
Regelmabige
~Produktions
uberwachung
20
NMP1K2
EN 60601-1
IEC 60601-1
8
10
E227340 E183223
MADE IN TAIWAN
Bauar
Sicherheit
egel ge
ma
tgepruft
od
be
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ID2000000000
tuv.com
wacg
os
Total Output Power: 960W
max. ( )
For input 100-109VAC
Input:
110-240VAC 13.5-6.70A
50/60Hz
Input:
100-109VAC 12.6-11.5A
50/60Hz
Total Output Power: 1200W
max. ( )
For input 110-240VAC
No. 28Wuquan 3rd Rd., Wugu Dist., New Taipei City 24891, Taiwan,
MEAN WELL ENTERPRISES CO.,LTD.
Manual:www.meanwell.com/manual.html
SLOT1 SLOT2
234
SLOT1
NM P1 K2 - - #01KECHH
#
56
SLOT3 SLOT4 SLOT6
36A
C
-
+
5V
12V
20A
E
-
+
24V 24V
10A 10A
HH
--
++
SLOT5
48V
5A
K
-
+
C81N
+V1
+V2
C81N
+V
m
20
Figure 7-1 Mounting Screw
Chassis of Customer's system
Screw M4 L=4mm max.
P.S.U. Case(thickness 1.6mm)
The length L of the mounting screw must be less than 4mm when measured from the case of the NMP, as shown in Figure 7-1.
7.3 De-rating
Make sure all modules are operating within their electrical specifications, and the combined operation output power must be less than
the Front-End's maximum output rating: (1200W for NMP1K2; 650W for NMP650).
When the ambient temperature is high or input AC voltage is low, the power supply needs to be de-rated according to curves shown below.
Static Characteristics
7. Notes on Operation
7.1 Front-End Mounting
Output wire gauge should be appropriately sized based on the output current of each module. The table below shows the minimum
wire gauge required for the corresponding current. It is recommended to use red wire for +V and black wire for -V.
AWG Cross Section Area (mm )
2Maximum Current (A)
UL1015 (600V 105 )
7.2 Output Wiring Guidelines
Derating Curve (NMP1K2, NMP650, NMS-240)
14
20
18
16
22
24
2.1
0.517
0.823
1.309
0.326
0.205
12
4
6
8
2
1
12 3.3 22
10
8
5.3
10
35
45
LOAD (%)
LOAD (%)
INPUT VOLTAGE (VAC) 60Hz
90 110 130 150 264
90
100
80
70
60
50
40
AMBIENT TEMPERATURE ( )
20
40
50
60
80
100
-30010203040506070
(HORIZONTAL)
115VAC
230VAC
-25
230VAC ONLY
100
CONTINUOUS
21
Derating Curve (NMD-240)
RATED CURRENT (%)
AMBIENT TEMPERATURE ( )
20
40
50
60
80
90
100
-30 010203040506070
(HORIZONTAL)
115VAC
230VAC
-25
Vo 7V
230VAC ONLY
RATED CURRENT (%)
AMBIENT TEMPERATURE ( )
20
40
50
60
80
90
100
-15 010203040506070
(HORIZONTAL)
115VAC
230VAC
Vo<7V
7.4 Hi-pot Test
Hi-pot safety verification can only be passed by configurations in the table below.
Front-End Modules
NMP1K2
NMP650
NMS-240 2 pcs
NMS-240 3 pcs
NMD-240 2 pcs
NMD-240 2 pcs
7.5 Warranty
When operated under normal conditions, the NMP has a 5-year global warranty. Please do not change components or make
modifications to the product, otherwise the warranty shall be void.
22
A1.2 CN81()Parallel Connection Accessories
NMS 240 P2--
-,(For NMS 240 2units)
NMS 240 P4--
-,(For NMS 240 4units)
NMS 240 P6--
-,(For NMS 240 6units)
NMS 240 P5--
-,(For NMS 240 5units)
NMS 240 P3--
-,(For NMS 240 3units)
A.Appendix
A1 Accessories
A1 1 V.(±) Parallel Connection Accessories
Parallel Connection Accessory
FAP 009-
-,(For NMS 240 2 units)
FAP 010-
-,(For NMS 240 3 units)
35mm
35mm 35mm 35mm 35mm 35mm 35mm 35mm
35mm 35mm
35mm 35mm 35mm 35mm 35mm
UL1061 28AWG
UL1061 28AWG UL1061 28AWG UL1061 28AWG UL1061 28AWG UL1061 28AWG UL1061 28AWG UL1061 28AWG
UL1061 28AWG UL1061 28AWG
UL1061 28AWG UL1061 28AWG UL1061 28AWG UL1061 28AWG UL1061 28AWG
HRS DF11-10DS
HRS DF11-10DS
HRS DF11-10DS
HRS DF11-10DS
HRS DF11-10DS HRS DF11-10DS HRS DF11-10DS HRS DF11-10DS HRS DF11-10DS HRS DF11-10DS HRS DF11-10DSHRS DF11-10DS
HRS DF11-10DS HRS DF11-10DS HRS DF11-10DS
HRS DF11-10DS HRS DF11-10DS HRS DF11-10DS HRS DF11-10DS HRS DF11-10DS
or equivalent
or equivalent
or equivalent
or equivalent
or equivalent or equivalent or equivalent or equivalent or equivalent or equivalent or equivalentor equivalent
or equivalent or equivalent or equivalent
or equivalent or equivalent or equivalent or equivalent or equivalent
2
2
2
2
22 222
222
22222
1
1
1
1
11 111
111
11111
10
10
10
10
10 10 1010 10
10 10 10
10 10 10 10 10
9
9
9
9
99 999
999
99999
HRS DF11-10DS
Wire color
Assignment GND GND RC2 VCC2 DC-OK CS PC PV +S -S
12345678910
Black Black Yellow Red White Orange Purple Green Blue Brown
PIN NO.
IE
23
A1.5 Modules Accessory
A1 6. Blank Module
200mm 10
UL1007 24AWG
109
21
HRS DF11-10DS
or equivalent
HRS DF11-10DS
Wire color
12345678910
Black Black Yellow Red White Orange Purple Green Blue Brown
PIN NO.
Blank Plate Accessory
BLANK-NMS240
A1.3 V)Series Connection Accessory
A1.4 Front-End Accessory
Series Connection Accessory
FAS 005-
-(For 1-slot modules: NMS 240)
200mm
NMP-CN32
(For NMP650 1K2 Front-End)/,
10
UL1007 24AWG
65
21
HRS DF11-06DS
or equivalent
HRS DF11-06DS
Wire color
Assignment
1
Red
+5V
-AUX-P
+5V
-AUX-P GND-P GND-P RC1 T-Alarm
2
Red
3
Black
4
Black
5
Blue
6
Gray
PIN NO.
NMS-240-CN81
(For NMS-240 modules),
Assignment
(NMS-240)
Assignment
(NMD-240)
GND
GND1
GND
GND2
RC2
RC2
VCC2
RC3
DC-OK
DC-OK1 DC-OK2
CS PC
NC NC NC NC
PV +S -S
Eflfifiifl’ifi’fiflfififil MEAN WELL ENTERPRISES CO., LTD. 248;}?1tfiifiHQEEEEflg2efifi Tel:886-2-2299-6100 Fax:886»2-2299-6200 http://www.meanwell.com E-mail:info@meanwell.com ?Mu Eelc‘ctflte pawea Pentax);
No.28, Wuquan 3rd Rd., Wugu Dist., New Taipei City 248, Taiwan