Notices
N2Power™
, a division of Qualstar Corporation.
N2Power
and the
N2Power
logo are registered trademarks of Qualstar Corporation.
Copyright© 2014 - 2017 by Qualstar Corporation — All Rights Reserved
For warranty information refer to www.n2power.com
Information contained in this document is copyrighted by Qualstar Corporation and is
intended for use by customers and prospective customers to evaluate and integrate
our power supplies. Customers and prospective customers may reproduce this
document as needed for these purposes. Reproduction in whole or in part for any other
purpose or by any other party is prohibited without prior written permission from
Qualstar Corporation.
Every effort has been made to keep the information contained in this document
current and accurate as of the date of publication or revision. However, no guarantee
is given or implied that the document is error-free or that it is accurate with regard to
any specification.
N2Power
reserves the right to modify the design or specification
without notice.
This specification may not be construed as a contractual obligation except as
specifically agreed to by
N2Power
in writing at the time of order.
For information about this product specification, please write or call
N2Power
at:
N2Power
130 W. Cochran St., Suite C
Simi Valley, CA 93065
FAX: (805) 583-7749
Phone: (805) 583-7744
E-Mail: sales@n2power.com
www.n2power.com
707151 Rev 08-28-17 i
Table of Contents
1. Introduction ................................................................................................................... 1-1
1.1 Introduction .................................................................................................................... 1-1
1.2 Agency Compliance ........................................................................................................ 1-2
2. AC Input .......................................................................................................................... 2-1
2.1 Input Line Requirements .............................................................................................. 2-1
2.2 Input Over Current Protection ...................................................................................... 2-1
2.3 Inrush Current Limiting ............................................................................................... 2-1
2.4 Low Input Voltage .......................................................................................................... 2-1
2.5 Leakage Current ............................................................................................................ 2-1
3. DC Outputs ..................................................................................................................... 3-1
3.1 Output Voltage Regulation ............................................................................................ 3-1
3.2 No Load Operation ......................................................................................................... 3-2
3.3 Output Ripple/Noise ...................................................................................................... 3-5
3.4 Redundant Operation: DLRDM20 ............................................................................... 3-7
3.5 Output Protection .......................................................................................................... 3-7
3.6 Output Rise Time ........................................................................................................... 3-9
3.7 Overshoot at Turn On/Turn Off .................................................................................... 3-9
4. General Specifications ................................................................................................ 4-1
4.1 Environmental................................................................................................................ 4-1
4.2 Mean Time Between Failures ....................................................................................... 4-1
4.3 Labeling/Marking ........................................................................................................... 4-2
4.4 Net Weight ...................................................................................................................... 4-2
4.5 Mounting......................................................................................................................... 4-3
4.6 Physical Dimensions ...................................................................................................... 4-3
4.7 Wiring Terminals ........................................................................................................... 4-4
4.8 Output Grounding .......................................................................................................... 4-4
4.9 Signal Pin Definitions .................................................................................................... 4-5
5. Efficiency ........................................................................................................................ 5-1
6. Signals ............................................................................................................................. 6-1
6.1 DC_OK ............................................................................................................................ 6-1
6.2 DC OK LED .................................................................................................................... 6-1
6.3 Voltage Hold-Up Time ................................................................................................... 6-1
7. Ordering Information .................................................................................................. 7-1
707151 Rev 08-28-17 ii
DL Series Product Specification
1.2 Agency Compliance
Safety Complies with Standard Remarks
United States
and Canada
UL 508 (Industrial Control Equipment)
listed
United States UL 1310 Class 2 Power Supply DL10 ~ DL100 series (10 W ~ 100W Din Rail
Power Supply)
European EN 60950-1:2006+A11
Dielectric
Withstand
Voltage
I/P-O/P: 4242Vdc; I/P-GND: 2121Vdc 1
minute
Isolation
Resistance
I/P-O/P, I/P-FG, O/P-FG: >
100MΩ/500Vdc
EMC Complies with Standard Remarks
RFI Emission EN 55022: 2006 Class B
Emission Standard
EN 61204-3: 2000
EN 61000-6-3: 2007
EN 61000-3-2: 2006 Class A
Limits for harmonic current emission
EN 61000-3-3: 1995+A1:2001+A2: 2005 Limitation of voltage fluctuations and flicker in
low-v oltage supply sy ste m
Immunity:
EN 55024: 1998+A1:2001_A2:2003
Immunity standard
EN 61204-3: 2000
EN 61000-6-1: 2007
IEC 610000-4-2 Electrostatic discharge immunity
IEC 610000-4-3 Radio frequency immunity
IEC 610000-4-4 Electrical fast transient burst immunity
IEC 610000-4-5 Power line surge immunity
IEC 610000-4-6 RF common mode immunity
IEC 610000-4-8 Power frequency magnetic field immunity
IEC 610000-4-11 Voltage dips and short interruptions immunity
Reduction of Hazardous Substances (RoHS) Complies with Standard Remarks
EU Council 2002/95/EC RoHS Direc tive
2011/65/EU RoHS 2 Directive
Marks of Conformance
United States & Canada
39UZ
IND. CONT. EQ.
LISTED
Underwriters Laboratories File E469384 (E469382 Class 2)
TUV
EU Council
Table 1-1 Agency Compliance
707151 Rev 08-28-17 Introduction 1-2
2. AC Input
2.1 Input Line Requirements
The following table defines the voltage and frequency requirements for the AC line
inputs to the DIN Rail models which are capable of supplying full rated power in
continuous operation throughout the specified ranges of voltages and frequencies. The
power supply will automatically recover from AC power loss and is capable of starting
under maximum load at the minimum AC input voltage described below.
Parameter Minimum Nominal Maximum
RMS Input Voltage 88VAC 100–240VAC 264VAC
RMS Input Current – – 1.8A @ 100V
0.8A @ 240V
Input Frequency 47Hz 50/60Hz 63Hz
Table 2-1 DIN Rail Input Parameters
2.2 Input Over Current Protection
The DIN Rail series incorporates a primary AC line fuse for input over current
protection to prevent damage to the power supply and meet product safety
requirements as outlined in Section 1.2.
2.3 Inrush Current Limiting
The cold start inrush current is limited to 30A peak at 115VAC and 60A at 230VAC.
Repetitive ON/OFF cycling of the AC input voltage shall not damage the power supply
or cause the input fuse to fail.
2.4 Low Input Voltage
The application of an input voltage below the minimums specified in Table 2-1 shall
not cause damage to the power supply.
2.5 Leakage Current
The leakage current from AC line or AC Neutral inputs to Earth Ground is
<1Ma/230Vac.
707151 Rev 08-28-17 AC Input 2-1
3. DC Outputs
3.1 Output Voltage Regulation
The DC output voltages shall remain within the Minimum and Maximum limits of
Table 3-1 when measured at the power supply connector under all specified line, load
and environmental conditions contained herein. The main output (V1) in the single
output models (-12 thru -48V).
Model Output Rated
Voltage
Regulation Minimum
(VDC)
Nominal
(VDC)
Maximum
(VDC)
DL10-12 V1 12 ±1% 11.88 12.00 12.12
DL10-15 V1 15 ±1% 13.85 15.00 15.15
DL10-24 V1 24 ±1% 23.76 24.00 24.24
DL20-12 V1 12 ±1% 11.88 12.00 12.12
DL20-15 V1 15 ±1% 13.85 15.00 15.15
DL20-24 V1 24 ±1% 23.76 24.00 24.24
DL40-12
V1
12 ±1% 11.88 12.00 12.12
DL40-15 V1 15 ±1% 13.85 15.00 15.15
DL40-24 V1 24 ±1% 23.76 24.00 24.24
DL40-48 V1 48 ±1% 47.52 48.00 48.48
DL60-12 V1 12 ±1% 11.88 12.00 12.12
DL60-15 V1 15 ±1% 13.85 15.00 15.15
DL60-24 V1 24 ±1% 23.76 24.00 24.24
DL60-48 V1 48 ±1% 47.52 48.00 48.48
DL100-12 V1 12 ±1% 11.88 12.00 12.12
DL100-15 V1 15 ±1% 13.85 15.00 15.15
DL100-24 V1 24 ±1% 23.76 24.00 24.24
DL100-48 V1 48 ±1% 47.52 48.00 48.48
DL150-24 V1 24 ±1% 23.76 24.00 24.24
DL150-48 V1 48 ±1% 47.52 48.00 48.48
DL240-24 V1 24 ±1% 23.76 24.00 24.24
DL240-48 V1 48 ±1% 47.52 48.00 48.48
DL480-24 V1 24 ±1% 23.76 24.00 24.24
DL480-48 V1 48 ±1% 47.52 48.00 48.48
Table 3-1 DL Output Voltage Specifications
707151 Rev 08-28-17 DC Outputs 3-1
DL Series Product Specification
3.2 No Load Operation
The power supply will operate under a no load condition and will not result in damage
to the supply. The power supply will remain stable and operate normally after
application of loads.
3.2.1 Output Loading for Single Output Models
The output currents listed in Table 3-2 require natural convection cooling at no more
than 50°C.
Model Rated V1
Output
Maximum
Convection Load
DL10-12 12V 0.84A
DL10-15 15V 0.67A
DL10-24 24V 0.42A
DL20-12 12V 1.7A
DL20-15 15V 1.4A
DL20-24 24V 1.0A
DL40-12 12V 3.4A
DL40-15 15V 2.7A
DL40-24 24V 1.7A
DL40-48 48V 0.85A
DL60-12 12V 5.0A
DL60-15 15V 4.0A
DL60-24 24V 2.5A
DL60-48 48V 1.25A
DL100-12 12V 7.5A
DL100-15 15V 6.4A
DL100-24 24V 4.0A
DL100-48 48V 2.0A
DL150-24 24V 6.3A
DL150-48 48V 3.2A
DL240-24 24V 10.0A
DL240-48 48V 5.0A
DL480-24 24V 20.0A
DL480-48 48V 10.0A
DLRDM20 24V 20.0V
Table 3-2 Max Load Currents Single Output Models
3.2.2 High Temperature Derating
The DL series can be operated at elevated temperatures by derating the total
maximum output power (or current) by 2.5%/°C from 50°C to 70°C.
707151 Rev 08-28-17 DC Outputs 3-2
DL Series Product Specification
100
80
60
40
20
-20 010 20 30 40 50 60 70
Load (%)
Ambient Temperature (°C)
Load vs. Temp.
Figure 3-1 Derating Curve: Models DL10 thru DL100 Series
100
90
80
70
60
50
40
85 100 110 120 264
Vac
Ta = 25°C
Load (%)
Input Voltage (Vac) 60Hz
Load vs. I/P Voltage
Figure 3-2 Load vs. Input Voltage: DL10 thru DL100 Series
707151 Rev 08-28-17 DC Outputs 3-3
DL Series Product Specification
150
112.5
100
60
40
-10 0 10 20
Continuous
For typical 3 seconds
30 40 50 60 70
Load (%)
Ambient Temperature (°C) AC=230VAC and 115VAC
Figure 3-3 Derating Curve: Models DL150, DL240 and DL480 Series
100
90
80
70
60
50
40
85 100 110 120 264
Vac
Ta = 25°C
Load (%)
Input Voltage (Vac) 60Hz
Load vs. I/P Voltage
Figure 3-4 Load vs. Input Voltage: Models DL150, DL240 and DL480 Series
707151 Rev 08-28-17 DC Outputs 3-4
DL Series Product Specification
100
80
60
40
20
-20 0 10 20 30 40 50 60 70
Load (%)
Ambient Temperature (°C)
Figure 3-5 DLRDM20 Derating Curve
3.3 Output Ripple/Noise
Output ripple voltage and noise are measured at 20MHz of bandwidth by using a 12”
twisted pair-wire terminated with a 0.1uf & 47uf parallel. The ripple noise is
measured from the output pin connectors (V+ and V-).
3.3.1 Ripple/Noise Limits: DIN Rail Models (DL10 through DL480)
The ripple voltage of the outputs is measured at the pins of the mating connector.
Ripple and noise shall not exceed the limits specified in Table 3-3 under any condition
of line voltage and frequency specified in Section 2.1 and DC loading specified in
Section 3.2.1.
Model Output Voltage Maximum Ripple+Noise
(peak-to-peak)
DL10-12 V1 12V 100mV
DL10-15 V1 15V 100mV
DL10-24 V1 24V 120mV
DL20-12 V1 12V 100mV
DL20-15 V1 15V 100mV
DL20-24 V1 24V 120mV
DL40-12 V1 12V 100mV
DL40-15 V1 15V 100mV
DL40-24 V1 24V 120mV
707151 Rev 08-28-17 DC Outputs 3-5
DL Series Product Specification
Model Output Voltage Maximum Ripple+Noise
(peak-to-peak)
DL40-48 V1 48V 180mV
DL60-12 V1 12V 100mV
DL60-15 V1 15V 100mV
DL60-24 V1 24V 120mV
DL60-48 V1 48V 180mV
DL100-12 V1 12V 180mV
DL100-15 V1 15V 180mV
DL100-24 V1 24V 180mV
DL100-48 V1 48V 250mV
DL150-24 V1 24V 240mV
DL150-48 V1 48V 480mV
DL240-24 V1 24V 150mV
DL240-48 V1 48V 300mV
DL480-24 V1 24V 240mV
DL480-48 V1 48V 480mV
Table 3-3 Ripple Voltage: DL Output Models (DL10 through DL480)
3.3.2 Ripple/Noise Test Setup
Figure 3-6 Ripple Noise Measurement Setup
Notes:
1. Load the output with its minimal
load current.
2. Connect the probes as shown but
keep them as close as possible to
the output terminals.
3. Repeat the meas ur em ent with
maximum load on the output.
Earth Ground
DC Return
Load
Load must be
isolated from the
earth ground of
the power sup ply.
Differential
Oscilloscope
AC Neutral
AC Line
47uf
0.1uf
V Out
Power Supply
707151 Rev 08-28-17 DC Outputs 3-6
DL Series Product Specification
3.4 Redundant Operation: DLRDM20
Three of the DLRDM20 accessories may be connected in parallel to provide higher
output power and greater reliability for redundant or N+1 configurations.
Figure 3-7 DLRDM20 Typical Applications
Figure 3-8 DLRDM20 Terminal Block Pin Assignments
3.5 Output Protection
There are three different output protection schemes designed to protect the load and
the DL Series from component failures and extraordinary circumstances.
3.5.1 Over Temperature Protection (OTP)
If the DL Series is operated without adequate cooling, it will sense an over-
temperature condition 95°C +/- 5°C and shut itself down. It will not restart until it
DLRDM2
DLRDM2
PSU
PSU
Load
Load
DLRDM2
DLRDM2
Vout
PSU
PSU
Vou
Vin
Vin
PSU
PSU
Vou
Vin
Vin
Load
PSU
PSU
Vout
Vin
Vin
PSU
PSU
Vout
Vin
Vin
PSU
PSU
Vout
Vin
Vin
PSU
PSU
DLRDM2
DLRDM2
Vin
Vin
Vin
Vin
Load
Vout
Vout
1+1 Redundancy:
Using 1 more PSU as the redundant
unit
Single Use:
Connecting only one PSU to one DLRDM20
to reduce the stress of the diodes and
increase the reliability
1+N Redundancy:
Using more PSUs as the redundant
units to increase the reliability
1
TB2
Terminal Pin # Assignment (TB1)
Terminal Pin # Assignment (TB2)
TB1
1
2
2
3
3
4
4
5
6
P
i
n
#
A
s
s
i
g
n
m
e
n
t
1
V
o
u
t
+
2
V
o
u
t
-
3
,
4
V
i
n
-
5
V
i
n
B
+
6
V
i
n
A
+
P
i
n
#
A
s
s
i
g
n
m
e
n
t
1
A
l
a
r
m
B
1
2
A
l
a
r
m
B
2
3
A
l
a
r
m
A
1
4
A
l
a
r
m
A
2
707151 Rev 08-28-17 DC Outputs 3-7
DL Series Product Specification
has cooled down to below its maximum operating temperature and the AC power is
turned off and back on. The DLRDM20 does not have over temperature protection and
this redundancy module will become defective in over temperature condition.
3.5.2 Over Voltage Protection (OVP)
No single fault is able to cause a sustained over voltage condition on any output.
When an over-voltage condition occurs, the power supply will shut down and will not
restart until AC power is turned off and back on. The DIN Rail supply will latch –off
under the following over voltage conditions:
Model Minimum Nominal Maximum
DL10-12 13.80V 15.90V 18.00V
DL10-15 17.25V 19.75V 22.50V
DL10-24 27.60V 31.80V 36.00V
DL20-12 13.80V 15.90V 18.00V
DL20-15 17.25V 19.75V 18.00V
DL20-24 27.60V 31.80V 36.00V
DL40-12 13.80V 15.90V 18.00V
DL40-15 17.25V 19.75V 22.50V
DL40-24 27.60V 31.80V 36.00V
DL40-48 55.20V 63.60V 72.00V
DL60-12 13.80V 15.90V 18.00V
DL60-15 17.25V 19.75V 22.50V
DL60-24 27.60V 31.80V 36.00V
DL60-48 55.20V 63.80V 72.00V
DL100-12 13.80V 15.90V 18.00V
DL100-15 17.25V 19.75V 22.50V
DL100-24 27.60V 31.80V 36.00V
DL100-48 55.20V 63.60V 72.00V
DL150-24 29.00V 31.00V 33.00V
DL150-48 56.00V 60.50V 65.00V
DL240-24 28.00V 30.50V 33.00V
DL240-48 56.00V 60.50V 65.00V
DL480-24 29.00V 31.00V 33.00V
DL480-48 56.00V 60.50V 65.00V
Table 3-4 Over Voltage Protection Limits
3.5.3 Over Current Protection (OCP)
For model DL150: works within 105~150% rated output power for more than three
seconds and then shutdown o/p voltage with auto-recovery, >150% rated power or
short circuit is constant current limiting. If o/p drops to 40% rating output voltage the
707151 Rev 08-28-17 DC Outputs 3-8
DL Series Product Specification
supply will shut down and auto recover five times. If fault condition is not removed
within these five times, the supply will latch off and requires a power cycle to recover.
For model DL240: >150%, rated power or short circuit is constant current limiting, If
o/p drops to 40% rating output voltage the supply will shut down and auto recover five
(5) times. If fault condition is not removed within these five (5) times, the supply will
latch off and requires a power cycle to recover.
For model DL480: Hiccup mode: when the rated output power is within 105~150% for
more than three seconds. Constant limit >150% rated power or short circuit. If o/p
drops to 40% rating output voltage the supply will shut down and auto recover five
times. If fault condition is not removed within these five times, the supply will latch
off and requires a power cycle to recover.
3.5.4 Short Circuit Protection
A short circuit is defined as an impedance of less than 0.1 ohms placed between DC
RETURN and any output. A short circuit will cause no damage to the power supply,
but will cause it to shutdown. The power supply will periodically attempt a restart
until the short circuit condition is removed. After successfully restarting, the power
supply will operate normally.
3.6 Output Rise Time
All output voltages shall rise from 10% to 90% of nominal output voltage (as specified
in Table 3-1) within 30ms to 100ms. The output voltages waveform must be a
monotonic ramp from 10% to 90% of final setpoint within the regulation band under
any loading conditions specified in the respective load current tables in Table 3-2.
For the purposes of this specification, a monotonic ramp is defined as always having a
positive slope of from zero to 10*Vout volts/millisecond. During any 5-millisecond
portion of the ramp, its slope must be greater than 5% of its rated voltage per
millisecond.
3.7 Overshoot at Turn On/Turn Off
The DL10 through DL100 series do not support the overshoot feature. The DL150,
DL240 and DL480 series support over and under overshoot <+/-5%.
707151 Rev 08-28-17 DC Outputs 3-9
4. General Specifications
4.1 Environmental
The DL Series meets or exceeds the following environmental specifications:
Parameter Conditions Specification Remarks
Temperature Operating -20°C to 70°C DL10-100 Series, DLRDM20
10°C to 70°C DL150
-25°C to 70°C DL240, DL480
Non-Operating -40°C to 85°C
Relative Humidity Operating 90% Maximum Non-Condensing
Non-Operating 95% Maximum Non-Condensing
Altitude Operating 6,561 f eet MSL Max. 2,000 meters
Vibration No damage 2.0 G RMS Maximum 10-500Hz, 10-min/1cycle,60 m in each
along x, y, z axis. Mounting:
Compliance to IEC60068-2-6
Table 4-1 Environmental Specifications
4.2 Mean Time Between Failures
The calculated MTBF of all models is equal to or greater than the specified hours of
continuous operation at maximum output loading and worst-case input line voltage
with convection cooling at 25°C. N2Power does not warrant the MTBF to be
representative of any particular unit. The MTBF of the power supply is calculated
with an 80% confidence level in accordance with (MIL-HDBK-217F). Actual failure
rates vary from unit to unit.
Model MTBF
DL10-12, -15 & -24 562.7K HRS
DL20-12 120.4K HRS
DL20-15 131.3K HRS
DL20-24 125.9K HRS
DL40-12, -15, 24 & -48 947.2K HRS
DL60-12, -15, 24 & -48 944.6K HRS
DL100-12, -15, 24 & -48 120.4K HRS
DL150-24 & -48 62.7K HRS
DL240-24 & -48 56.7K HRS
DL480-24 & -48 65.9K HRS
DLRDM20 TBD
Table 4-2 MTBF by Model
707151 Rev 08-28-17 General Specifications 4-1
4.3 Labeling/Marking
The power supply is marked and labeled with the N2Power logo and part number,
model number, input and output specifications, production code, appropriate safety
agency logos and CE mark. Typical labels are pictured below.
DL100-12
DL150-24
DC ON
39UZ
IND. CONT. EQ.
LISTED
+V
ADJ.
ON OFF
OUTPUT : 24V 6.25A
(MAX. 150W)
INPUT : 100 - 240VAC 2.0A
50 / 60Hz
SW1
SW2
N
L
•Maximum surrounding air temperature : 50°C(full load).
Instructions for installation in a pollution degree 2
environment.
Suitable electric wire : 26~10 AWG (IEC 0.13~5.26mm²).
Use Copper Conductors Only, Tighten To 4.4 (Lb-in)
for 3 pin,
•
•
•Tighten To 7.0 (Lb-in) for 6 pi n.
Figure 4-1 Sample DL Label
4.4 Net Weight
Model: DL10 DL20 DL40
DL60
DL100 DL150/240 DL480 DLRDM20
Pounds 0.34 0.36 0.72 0.76 0.99 2.35 3.30 1.21
Ounces 5.46 5.82 11.40 12.10 15.90 37.60 11.40 19.40
Kilograms 0.15 0.17 0.32 0.34 0.45 1.07 1.50 0.55
Table 4-3 DL Net Weights
707151 Rev 08-28-17 General Specifications 4-2
DL Series Product Specification
4.5 Mounting
The DL power supplies may be mounted on DIN rail TS35/ 7.5 or 15.
4.6 Physical Dimensions
Figure 4-2 DL Dimensions
707151 Rev 08-28-17 General Specifications 4-3
DL Series Product Specification
4.7 Wiring Terminals
The user must furnish all connectors. The DIN Rail input and output connectors use
screw terminals.
Models Wire Gauge for Terminals
DL10 thru DL100 12~24 AWG ( IEC 0.5~2.5mm)
DL150 thru DL450 10~26 AWG ( IEC 0.13~5.26mm)
Table 4-4 Wire Gauge for Terminals by Model
4.8 Output Grounding
The DC RETURN signal may be connected to the power supply chassis ground (safety
earth) DIN Terminal next to the neutral AC line. See Figure 4-3.
Figure 4-3 DL Ground Location
DL100-12
707151 Rev 08-28-17 General Specifications 4-4
DL Series Product Specification
4.9 Signal Pin Definitions
•Signal pin definitions reside on the product labels on the front of the power supplies
by the screw terminal connectors.
•Identical signal names are connected together on all connectors
Table 4-5 DL10 & DL20 Signal Pin Definitions
Table 4-6 DL40, DL60 & DL100 Signal Pin Definitions
TB2
TB1
Terminal Pin # Assignment (TB1)
Terminal Pin # Assignment (TB2)
4
1
5
2
6
3
P
i
n
#
A
s
s
i
g
n
m
e
n
t
1
F
G
2
A
C
/
N
3
A
C
/
L
P
i
n
#
A
s
s
i
g
n
m
e
n
t
4
+
D
C
5
-
D
C
6
D
C
O
K
TB2
TB1
4
7
1
5
8
2
6
9
3
Terminal Pin # Assignment (TB1)
Terminal Pin # Assignment (TB2)
P
i
n
#
A
s
s
i
g
n
m
e
n
t
1
F
G
2
A
C
/
N
3
A
C
/
L
P
i
n
#
A
s
s
i
g
n
m
e
n
t
4
,
5
+
D
C
6
,
7
-
D
C
8
,
9
D
C
O
K
707151 Rev 08-28-17 General Specifications 4-5
DL Series Product Specification
Table 4-7 DL150 & DL240 Signal Pin Definition
Table 4-8 DL480 Signal Pin Definitions
Terminal Pin # Assignment (TB1)
Terminal Pin # Assignment (T B 2)
Switch # Assignment
P
i
n
#
A
s
s
i
g
n
m
e
n
t
1
F
G
2
A
C
/
L
3
A
C
/
N
P
i
n
#
A
s
s
i
g
n
m
e
n
t
1
,
2
,
3
+
D
C
4
,
5
,
6
-
D
C
7
I
N
H
+
8
I
N
H
-
9
,
1
0
D
C
O
K
S
W
#
A
s
s
i
g
n
m
e
n
t
S
W
1
P
e
a
k
L
o
a
d
S
e
t
t
i
n
g
S
W
2
R
e
m
o
t
e
O
N
/
O
F
F
S
e
t
t
i
n
g
TB2
TB1
1
4
1
2
5
2
3
6
7
8
9
10
3
TB2
TB1
4
7
1
5
8
2
6
9
3
Terminal Pin # Assignment (TB1)
Terminal Pin # Assignment (TB2)
Switch # Assignment
P
i
n
#
A
s
s
i
g
n
m
e
n
t
1
F
G
2
A
C
/
L
3
A
C
/
N
P
i
n
#
A
s
s
i
g
n
m
e
n
t
1
+
D
C
2
-
D
C
3
I
N
H
+
4
I
N
H
-
5
,
6
R
e
l
a
y
C
o
n
t
a
c
t
S
W
#
A
s
s
i
g
n
m
e
n
t
S
W
1
P
e
a
k
L
o
a
d
S
e
t
t
i
n
g
S
W
2
R
e
m
o
t
e
O
N
/
O
F
F
S
e
t
t
i
n
g
707151 Rev 08-28-17 General Specifications 4-6
DL Series Product Specification
Table 4-9 DLRDM20 Signal Pin Definitions
1
TB2
Terminal Pin # Assignment (TB1)
Terminal Pin # Assignment (TB2)
TB1
1
2
2
3
3
4
4
5
6
P
i
n
#
A
s
s
i
g
n
m
e
n
t
1
V
o
u
t
+
2
V
o
u
t
-
3
,
4
V
i
n
-
5
V
i
n
B
+
6
V
i
n
A
+
P
i
n
#
A
s
s
i
g
n
m
e
n
t
1
A
l
a
r
m
B
1
2
A
l
a
r
m
B
2
3
A
l
a
r
m
A
1
4
A
l
a
r
m
A
2
707151 Rev 08-28-17 General Specifications 4-7
DL Series Product Specification
5. Efficiency
The efficiencies for the DIN Rail power supplies are listed below. They were measured
at full load, 25C, at 230AC.
DL: Output Load AC Efficiency
DL10 12V 0.84A 230VAC 81%
DL10 15V 0.67A 230VAC 81%
DL10 24V 0.42A 230VAC 81%
DL20 12V 1.7A 230VAC 83%
DL20 15V 1.4A 230VAC 85%
DL20 24V 1.0A 230VAC 86%
DL40 12V 3.4A 230VAC 84%
DL40 15V 2.7A 230VAC 84%
DL40 24V 1.7A 230VAC 84%
DL40 48V 0.85A 230VAC 85%
DL60 12V 5.0A 230VAC 86%
DL60 15V 4.0A 230VAC 87%
DL60 24V 2.5A 230VAC 87%
DL60 48V 1.25A 230VAC 88%
DL100 12V 7.5A 230VAC 87%
DL100 15V 6.4A 230VAC 87%
DL100 24V 4.0A 230VAC 88%
DL100 48V 2.0A 230VAC 87%
DL150 24V 6.3A 230VAC 87%
DL150 48V 3.2A 230VAC 87%
DL240 24V 10.0A 230VAC 91%
DL240 48V 5.0A 230VAC 92%
DL480 24V 20.0A 230VAC 93%
DL480 48V 10.0A 230VAC 94%
Table 5-1 DL Output Currents at Rated Efficiency
707151 Rev 08-28-17 Efficiency 5-1
6. Signals
6.1 DC_OK
The DC_OK signal is the signal that is driven by an open-collector transistor. The
electrical specifications for the DC_OK outputs are described in Table 6-1.
Signal Type
Power On Delay Models DL10 thru 100 <800ms
Models DL150 and 240 <700ms
Model DL480 <800ms
Rise Time Models DL10 and 20 <100ms/230VAC at ful l load
Models DL40 and 60 <50m s/2 30V AC at full loa d
Model DL100 <40ms/230Vac at full load
Models DL150 and 240 <30ms/230VAC/115VAC at full load
Model DL480 <100ms/230VAC/115VAC at f ul l load
PS DC _OK Output Models DL10 and DL20 Open collect or . Max:40mA.
Model DL40 Relay contact (30VDC/1A,120VAC/1A)
Models DL60 and DL100 Relay contact (24VDC/1A,120/1A)
Models DL150 and DL240, 60Vdc/0.3A, 30VDC/1A, 30VAC/0.5A resistive load
Model DL480, open co lle ctor s igna l
Table 6-1 DL Status and Control Signal Specifications
6.2 DC OK LED
A green LED on DL10-DL480 illuminates when DC-OK signal is true (high).
6.3 Voltage Hold-Up Time
The power supply will maintain output regulation per Table 3-1 despite a loss of input
power. The Hold-Up Time is as follows:
Models Hold-Up Time
DL10 thru DL100 16ms /115VAC at full load and >32ms/230VAC
DL150 16ms/115VAC at full load and 32ms/230VAC
DL240 22ms/115VAC at full load and 32ms/230VAC
DL480 16ms/115VAC at full load and 16ms/230V
Table 6-2 Hold-Up Time by Model
707151 Rev 08-28-17 Signals 6-1
7. Ordering Information
The following table provides the N2Power part numbers that should appear on your
purchase order and will appear on any N2Power correspondence:
Model
Number
V1 N2Power Part
Number
DL10-12 12V 400300-01-8
DL10-15 15V 400300-02-6
DL10-24 24V 400300-03-4
DL20-12 12V 400301-01-6
DL20-15 15V 400301-02-4
DL20-24 24V 400301-03-2
DL40-12 12V 400302-01-4
DL40-15 15V 400302-02-2
DL40-24 24V 400302-03-0
DL40-48 48V 400302-04-8
DL60-12 12V 400303-01-2
DL60-15 15V 400303-02-0
DL60-24 24V 400303-03-8
DL60-48 48V 400303-04-6
DL100-12 12V 400304-01-0
DL100-15 15V 400304-02-8
DL100-24 24V 400304-03-6
DL100-48 48V 400304-04-4
DL150-24 24V 400305-01-7
DL150-48 48V 400305-02-5
DL240-24 24V 400306-01-5
DL240-48 48V 400306-02-3
DL480-24 24V 400307-01-3
DL480-48 48V 400307-02-1
DLRDM20 24V 400308-01-1
Table 7-1 DL Part Numbers
All DL power supplies are RoHS compliant For warranty information refer to
www.n2power.com. Direct all questions, orders or requests for quotation as follows:
N2Power Order Desk: orders@n2power.com 805-583-7744 x112
Fax (Attention N2Power): 805-583-7749
Sales: sales@n2power.com 805-583-7744 x122
Technical Support:
Address: techsupport@n2power.com 805-583-7744 x119
130 W. Cochran St., Suite C, Simi Valley CA 93065
707151 Rev 08-28-17 Ordering Information 7-1
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