Delta DRM-24V240W1PN Universal ac input voltage range Datasheet

TECHNICAL DATASHEET
CliQ M DIN Rail Power Supply
24V 240W 1 Phase / DRM-24V240W1PN
Highlights & Features
•
•
•
•
•
•
•
•
Universal AC input voltage range
Built-in active PFC and up to 94% efficiency
Full power from -25°C to +60°C operation @ 5000m or
16400 ft. altitude
Power Boost of 150% up to 7 seconds
Advanced Power Boost (APB) – protect system and ensure
continuing operation when large inrush current detected due
to faulty load on a multiple load connection
DNV GL approval for maritime applications
Built-in DC OK Contact and LED indicator for DC OK/
Overload
Conformal coating on PCBAs to protect against common
dust and chemical pollutants
Safety Standards
CB Certified for worldwide use
Model Number:
DRM-24V240W1PN
Unit Weight:
0.94 kg (2.07 lb)
Dimensions (L x W x D): 124 x 60 x 117 mm
(4.88 x 2.36 x 4.61 inch)
General Description
Delta Electronics is introducing one of the slimmest DIN rail industrial power supplies in its class, the CliQ M DIN rail power supply
series. To fulfill the demands in maritime applications, the product is designed according to major industrial and maritime (Lloyd’s
Register) safety standards. Other features include compliance with harmonic current IEC/EN 61000-3-2, class A. In addition to having
Power Boost of 150% for 5 seconds, the CliQ M series is the first in the CliQ family to feature Advanced Power Boost (APB). With
multiple loads connected in a system, a large outrush current could be drawn (demanded) due to one fault load. This will be detected
by APB. The APB will trip the circuit breaker (circuit breaker with appropriate rating based on the system load) on the current path of
the fault load due to high current. This thus prevents the system from shutting down while the other connected current paths continue
to operate without interruption. Additionally, the product also includes built-in DC OK contact and LED indicator for DC OK/ Overload.
Model Information
CliQ M DIN Rail Power Supply
Model Number
Input Voltage Range
Rated Output Voltage
Rated Output Current
DRM-24V240W1PN
85-276Vac (88-375Vdc)
24Vdc
10.0A
Model Numbering
DR
M–
24V
240W
1
P
N
DIN Rail
CliQ M Series
Output Voltage
Output Power
Single Phase
Advanced
Power Boost
(APB)
N - Metal Case,
without Class I, Div 2
and ATEX approvals
1
All parameters are specified at 25°C ambient and AC input unless otherwise indicated.
www.DeltaPSU.com (July 2016, Rev. 01)
TECHNICAL DATASHEET
CliQ M DIN Rail Power Supply
24V 240W 1 Phase / DRM-24V240W1PN
Specifications
Input Ratings / Characteristics
Nominal Input Voltage
100-240Vac
Applicable for TN-, TT and IT mains
networks
Input Voltage Range
85-276Vac
Continuously operating
50-60Hz
±3% range (47-63Hz)
Input Frequency
Nom.
Nominal DC Input Voltage
110-300Vdc
DC input Voltage Range*
88-375Vdc
Input Current
Typ.
Continuously operating
100Vac
120Vac
230Vac
2.62A
2.17A
1.16A
At 24V, 10A. Refer to Fig. 1
1.25A
At 24V, 10A.
Max.
2.70A
2.26A
Typ.
92.64%
93.44%
94.84% At 24V, 10A. Refer to Fig. 2
Min.
91.50%
92.60%
93.50% At 24V, 10A.
Average Efficiency
Typ.
91.65%
92.22%
93.17% At 24V, 2.5A (25% load), 5.0A (50%
Min.
89.60%
90.20%
91.40% load), 7.5A (75% load)
Max Power Dissipation
Typ.
2.30W
2.34W
2.43W
At 24V, 0A. Refer to Fig. 3
Max.
4.4W
4.9W
6.1W
At 24V, 0A.
Typ.
19.12W
16.91W
13.10W At 24V, 10A. Refer to Fig. 3
Max.
23.5W
20.1W
17.5W
Typ.
5.0A
6.0A
7.0A
Entire temperature range
Efficiency
Max Inrush Current (Cold Start)
At 24V, 10A.
Max.
10.0A
Max Inrush Energy (Cold Start)
Max.
4A2s
Power Factor
Typ.
0.99
0.98
0.95
At 24V, 10A. Refer to Fig. 4
Min.
0.99
0.98
0.92
At 24V, 10A.
Max.
1.65
1.67
1.85
At 24V, 10A.
Crest Factor
Leakage Current
(Enclosure to Neutral)
< 0.25mA / 0.54mA
< 0.38mA / 0.79mA
< 0.74mA / 1.29mA
110Vac, 50Hz, TN/TT system / IT system
132Vac, 50Hz, TN/TT system / IT system
264Vac, 50Hz, TN/TT system / IT system
*Safety approval according to IEC/EN/UL 60950-1.
2
All parameters are specified at 25°C ambient and AC input unless otherwise indicated.
www.DeltaPSU.com (July 2016, Rev. 01)
TECHNICAL DATASHEET
CliQ M DIN Rail Power Supply
24V 240W 1 Phase / DRM-24V240W1PN
Fig. 1
Input Current Vs Output Load at 24V
Fig. 2
Efficiency Vs Output Load at 24V
Fig. 3
Max Power Dissipation Vs Output Load at 24V
Fig. 4
Power Factor Vs Output Load at 24V
3
All parameters are specified at 25°C ambient and AC input unless otherwise indicated.
www.DeltaPSU.com (July 2016, Rev. 01)
TECHNICAL DATASHEET
CliQ M DIN Rail Power Supply
24V 240W 1 Phase / DRM-24V240W1PN
Output Ratings / Characteristics**
Nominal Output Voltage
24Vdc
Factory Set Point Tolerance
± 1.0% (initial set point tolerance from factory)
Output Voltage Adjustment Range
24-28Vdc
Output Current
Nom.
Nom.
10.0A / 9.0A
15.0A / 13.5A
(Slew rate 0.1A/µs)
Continuously operating at 24V / 28V
Power Boost for 5 seconds at 24V / 28V,
refer to the details in the Function section
Output Power
Nom.
Nom.
240W / 252W
360W / 378W
Continuously operating at 24V / 28V
Power Boost for 5 seconds at 24V / 28V,
refer to the details in the Functions
section
Power Boost Duration
Typ.
Max.
5 seconds
7 seconds
Power Boost Recovery Time
Typ.
14 seconds
Advanced Power Boost
(Slew rate 0.1A/µs)
Typ.
Typ.
Typ.
20A @ 50ms, resistive load
50A @ 2ms, resistive load
50A @ 5ms, resistive load
Line Regulation
Max.
10mV (@ 85-276Vac input, 100% load)
Load Regulation
Max.
100mV (@ 85-276Vac input, 0-100% load)
PARD***
Max.
50mVpp
Duration after which output voltage start
to droop, refer to the details in the
Function section at Overload &
Overcurrent Protections
Required wait duration before next Power
Boost is taken, refer to the details in the
Function section
Output voltage will drop (Refer to the
details in the Function section)
20Hz to 20MHz, 50Ohm, warm up for
10mins
**For power de-rating from 60°C to 70°C, see power de-rating on page 10.
***PARD is measured with an AC coupling mode, 5cm wires, and in parallel with 0.1μF ceramic capacitor & 47μF electrolytic capacitor.
100Vac
120Vac
230Vac
Rise Time
Max.
100ms
Start-up Time
Max.
Hold-up Time
Typ.
92ms
At 24V, 5A.
Min.
55ms
At 24V, 5A.
Typ.
46ms
At 24V, 10A.
28ms
At 24V, 10A.
Max.
120ms
800ms
Min.
650ms
Dynamic Response
(Overshoot & Undershoot O/P Voltage)
Max.
± 5% @ 0-100% load
Start-up with Capacitive Loads
Max.
10,000µF
Output Capacitance
Typ.
7,000 µF
Functional
4
DC OK Relay
Contact
0µF, 24V, 10A.
10,000µF, 24V, 10A.
340ms
At 24V, 10A.
Slew rate 0.1A/µs
(@ 5Hz, 50Hz & 1kHz, 50% Duty Cycle)
Built-in output capacitors
Rated: 30V at 1A, resistive load
The relay contact are normally “ON” (closed) when the output (Vout) is
greater than 90% of its rated value.
All parameters are specified at 25°C ambient and AC input unless otherwise indicated.
www.DeltaPSU.com (July 2016, Rev. 01)
TECHNICAL DATASHEET
CliQ M DIN Rail Power Supply
24V 240W 1 Phase / DRM-24V240W1PN
Mechanical
Case Cover / Chassis
Aluminium
Dimensions (L x W x D)
124 x 60 x 117 mm (4.88 x 2.36 x 4.61 inch)
Unit Weight
0.94 kg (2.07 lb)
Indicator
Green LED (DC OK) and Red LED (Overload)
Cooling System
Convection
Terminal
Wire
Input
3 Pins (Rated 600V/35A)
Output
6 Pins (Rated 300V/28A)
Input
Output
AWG 18-8
AWG 16-12
Mounting Rail
Standard TS35 DIN Rail in accordance with EN 60715
Noise (1 Meter from power supply)
Sound Pressure Level (SPL) < 25dBA
Environment
Surrounding Air Temperature
Operating
Storage
Power De-rating
Vertical
Mounting
Horizontal
Mounting
-25°C to +70°C (Cold start -40°C)
-40°C to +85°C
> 60°C de-rate power by 2.5% / °C
> 50°C de-rate power by 2.5% / °C
Operating Humidity
5 to 95% RH (Non-Condensing)
Operating Altitude
0 to 5,000 Meters (16,400 ft.) for ITE application
0 to 2,500 Meters (8,200 ft.) for Industrial application
Shock Test (Non-Operating)
IEC60068-2-27, Half Sine Wave: 30G for a duration of 18ms;
3 times per direction, 6 times in total
IEC 60068-2-6, Sine Wave: 10-500Hz; 3G peak; displacement of
0.35mm; 60 min per axis for all X, Y, Z directions
Vibration (Non-Operating)
Bump Test (Operating)
IEC 60068-2-29, Half Sine Wave: 10G for a duration of 11ms,
1,000 times per direction, 6,000 times in total
Over Voltage Category
III
Pollution Degree
2
5
According to EN 50178 / EN 60204-1
(clearance and creepage distances) and
IEC 62103 (safety part)
All parameters are specified at 25°C ambient and AC input unless otherwise indicated.
www.DeltaPSU.com (July 2016, Rev. 01)
TECHNICAL DATASHEET
CliQ M DIN Rail Power Supply
24V 240W 1 Phase / DRM-24V240W1PN
Protections
Overvoltage
28.8 – 35.2V, SELV Output,
Hiccup Mode, Non-Latching
(Auto-Recovery)
Refer to the details in the Function
section
Overload / Overcurrent
> 150% of rated load current,
Constant current limit, AutoRecovery when the fault is
removed
Refer to the details in the Function
section
Over Temperature
< 80°C Surrounding Air
Refer to the details in the Function
Temperature @ 100% load,
section
Non-Latching (Auto-Recovery)
Short Circuit
Hiccup Mode, Non-Latching
Load impedance ≤ 100mOhm, refer to
(Auto-Recovery when the fault the details in the Function section
is removed)
Transient Surge Voltage Protection
MOV (Metal Oxide Varistor)
Internal Fuse
T6.3A H
Degree of Protection
IP20
Protection Against Shock
Class I with PE* connection
*PE: Primary Earth
Reliability Data
MTBF (as per Telcordia SR-332)
1,476,000 hrs.
I/P: 100Vac, O/P: 24V, 10A, Ta: 25°C
771,000 hrs.
I/P: 100Vac, O/P: 24V, 10A, Ta: 40°C
100Vac
Expected Cap Life Time**
230Vac
131,400hrs.
58,000hrs.
87,600hrs.
131,400hrs.
O/P: 24V, 10A, Ta: 25°C
O/P: 24V, 10A, Ta: 40°C
O/P: 24V, 5A, Ta: 40°C
**Estimated lifetime when 24 hours operating a day and E-cap’s manufacturer guarantee at 131,400 hrs (15 years) as maximum limit of lifetime.
6
All parameters are specified at 25°C ambient and AC input unless otherwise indicated.
www.DeltaPSU.com (July 2016, Rev. 01)
TECHNICAL DATASHEET
CliQ M DIN Rail Power Supply
24V 240W 1 Phase / DRM-24V240W1PN
Safety Standards / Directives
Electrical Equipment of Machines
EN 60204-1 (over voltage category III)
Electrical Equipment for Use in
Electrical Power Installations
EN 50178 / IEC 62103
Safety Entry Low Voltage
Electrical Safety
Industrial Control Equipment
PELV (EN 60204-1), SELV (EN 60950-1)
SIQ Bauart
UL/cUL recognized
CB scheme
UL/cUL listed
CSA
Maritime
DNV GL
ABS
CE
EN 60950-1, EN 61558-1, EN 61558-2-16, EN 61010-1, EN 61010-2-201
UL 60950-1 and CSA C22.2 No. 60950-1 (File No. E191395)
IEC 60950-1, IEC 61558-1, IEC 61558-2-16, IEC 61010-1,
IEC 61010-2-201
UL 508 and CSA C22.2 No. 107.1-01 (File No. E315355),
CSA C22.2 No. 107.1-01 (File No. 181564)
Germanischer Lloyd classified
American Bureau for Shipping) PDA (pending)
Environmental category: C, EMC2
Material and Parts
In conformance with EMC Directive 2014/30/EU and
Low Voltage Directive 2014/35/EU
RoHS Directive 2011/65/EU Compliant
Galvanic Isolation
4.54KVac
Input / Output
2.5KVac
Input / PE
4.54KVac
Input / DC OK relay contact*
1.5KVac
Output / PE
0.5KVac
Output / DC OK relay contact
1.5KVac
DC OK relay contact / PE
Isolation Resistance
> 5MOhm
Input to Output, 500Vdc
PE Resistance
< 0.1Ohm
*Recommend to connect DC OK pins together with output pins.
7
All parameters are specified at 25°C ambient and AC input unless otherwise indicated.
www.DeltaPSU.com (July 2016, Rev. 01)
TECHNICAL DATASHEET
CliQ M DIN Rail Power Supply
24V 240W 1 Phase / DRM-24V240W1PN
EMC
Emissions
(CE & RE)
Component Power Supply for General
Use
Generic Standards: EN 61000-6-3
CISPR 22, EN 55022, CISPR 11, EN 55011, FCC Title 47: Class B
Immunity
EN 55024, EN 61000-6-2
EN 61204-3
Level 4 Criteria A1)
Air Discharge: 15kV
Contact Discharge: 8kV
Level 3 Criteria A1)
80MHz-1GHz, 10V/M, 80% modulation (1kHz)
1.4GHz-2GHz, 3V/M, 80% modulation (1KHz)
2GHz-2.7GHz, 1V/M, 80% modulation (1KHz)
Electrostatic Discharge
IEC 61000-4-2
Radiated Field
IEC 61000-4-3
Electrical Fast Transient / Burst
IEC 61000-4-4
Level 4 Criteria A
4kV
Surge
IEC 61000-4-5
Conducted
IEC 61000-4-6
Level 4 Criteria A1)
3)
Common Mode : 4kV
Differential Mode4): 2kV
Level 3 Criteria A1)
150kHz-80MHz, 10Vrms
Power Frequency Magnetic
Fields
IEC 61000-4-8
1)
Criteria A1)
30A/Meter
Voltage Dips and Interruptions
IEC 61000-4-11
0% of 100Vac
40% of 100Vac
70% of 100Vac
0% of 200Vac
40% of 200Vac
70% of 200Vac
0% of 200Vac
Low Energy Pulse Test
(Ring Wave)
IEC 61000-4-12
Harmonic Current Emission
Level 3 Criteria A1)
3)
Common Mode : 2kV
4)
Differential Mode : 1kV
IEC/EN 61000-3-2, Class A
Voltage Fluctuation and Flicker
IEC/EN 61000-3-3
Voltage Sag Immunity
SEMI F47 – 0706
80% of 120Vac
70% of 120Vac
50% of 120Vac
Criteria A
2)
Criteria B
1)
Criteria A
1)
Criteria A
1)
Criteria A
1)
Criteria A
2)
Criteria B
96Vac, 1000ms
84Vac, 500ms
60Vac, 200ms
Criteria A
1)
Criteria A
1)
Criteria A
1) Criteria A: Normal performance within the specification limits
2) Criteria B: Temporary degradation or loss of function which is self-recoverable
3) Asymmetrical: Common mode (Line to earth)
4) Symmetrical: Differential mode (Line to line)
8
1)
0Vac, 20ms
40Vac, 200ms
70Vac, 500ms
0Vac, 20ms
80Vac, 200ms
140Vac, 500ms
0Vac, 5000ms
All parameters are specified at 25°C ambient and AC input unless otherwise indicated.
www.DeltaPSU.com (July 2016, Rev. 01)
1)
TECHNICAL DATASHEET
CliQ M DIN Rail Power Supply
24V 240W 1 Phase / DRM-24V240W1PN
Block Diagram
Device Description
(2)
(3)
(6)
(4)
(5)
(1)
1)
2)
3)
4)
5)
6)
9
Input terminal block connector
Output and DC OK relay contact terminal block connector
DC Voltage adjustment potentiometer
DC OK LED (Green)
Overload LED (Red)
Universal mounting rail system
All parameters are specified at 25°C ambient and AC input unless otherwise indicated.
www.DeltaPSU.com (July 2016, Rev. 01)
TECHNICAL DATASHEET
CliQ M DIN Rail Power Supply
24V 240W 1 Phase / DRM-24V240W1PN
Dimensions
L x W x D: 124 x 60 x 117 mm (4.88 x 2.36 x 4.61 inch)
Engineering Data
Output Load De-rating VS Surrounding Air Temperature
100
Note
1.
Percentage of Max Load (%)
90
80
70
2.
60
50
40
30
20
10
3.
0
-25 -20 -15 -10 -5
0
5 10
15 20 25
30 35 40 45 50 55 60 65 70
Surrounding Air Temperature (˚C)
Vertical Mounting
Horizontal Mounting
4.
5.
Fig. 5
De-rating for Vertical Mounting Orientation
> 60°C de-rate power by 2.5% / °C
Power supply components may degrade, or
be damaged, when the power supply is
continuously used outside the shaded region,
refer to the graph shown in Fig. 1.
If the output capacity is not reduced when the
surrounding air temperature >60°C (Vertical)
or >50°C (Horizontal), the device will run into
When
Over
Temperature
Protection.
activated, the output voltage will go into
bouncing mode and will recover when the
surrounding air temperature is lowered or the
load is reduced as far as necessary to keep
the device in working condition.
In order for the device to function in the
manner intended, it is also necessary to keep
a safety distance as recommended in the
safety instructions while the device is in
operation.
Depending
on
the
surrounding
air
temperature and output load delivered by the
power supply, the device can be very hot!
If the device has to be mounted in any other
orientation,
please
contact
[email protected] for more details.
De-rating for Horizontal Mounting Orientation
> 50°C de-rate power by 2.5% / °C
10
All parameters are specified at 25°C ambient and AC input unless otherwise indicated.
www.DeltaPSU.com (July 2016, Rev. 01)
TECHNICAL DATASHEET
CliQ M DIN Rail Power Supply
24V 240W 1 Phase / DRM-24V240W1PN
Output Load De-rating VS Input Voltage

Load (%)
100
No output power de-rating for the input
voltage range
80
60
40
20
0
85
95
100
115
120
140
160
180
200
240
264
Input Voltage (Vac)
Assembly & Installation
The power supply unit (PSU) can be mounted on 35mm DIN rails in accordance with EN 60715. For Vertical Mounting, the device
should be installed with input terminal block at the bottom. For Horizontal Mounting, the device should be installed with input terminal
block on the left side.
Each device is delivered ready to install.
1.
2.
3.
4.
5.
Tilt the unit upwards and insert it onto the DIN rail. Snap on the DIN rail as shown in Fig. 6.1.
Push downwards until stopped.
Press against the bottom front side for locking.
Shake the unit slightly to ensure that it is secured.
To uninstall, pull or slide down the latch with screw driver as shown in Fig. 6.2. Then slide the power supply unit (PSU) in the
opposite direction, release the latch and pull out the power supply unit (PSU) from the rail.
Dismounting
Mounting
2
2
1
3
Fig. 6.1 Mounting
1
Fig. 6.2 Dismounting
In accordance to EN 60950 / UL 60950, flexible cables require ferrules.
Use appropriate copper cables designed to sustain operating temperature of:
1. 60°C, 60°C / 75°C for USA
2. At least 90°C for Canada and IEC/EN61010-1, IEC/EN61010-2-201.
11
All parameters are specified at 25°C ambient and AC input unless otherwise indicated.
www.DeltaPSU.com (July 2016, Rev. 01)
3
TECHNICAL DATASHEET
CliQ M DIN Rail Power Supply
24V 240W 1 Phase / DRM-24V240W1PN
Safety Instructions

40mm
Horizontal Mounting
40mm (1.57 inch)
(1.57 inch)
5mm (0.2 inch)
20mm
Vertical Mounting
(0.79 inch)

–
–
–
–
–
–
–
–
–
12
20mm
20mm
(0.79 inch)
(0.79 inch)
ALWAYS switch mains of input power OFF before connecting and disconnecting the input voltage to the device. If mains are not
turned OFF, there is risk of explosion / severe damage.
If the unit is used in a manner not specified by the manufacturer, the protection provided by the equipment may be impaired.
To guarantee sufficient convection cooling, please refer to the following instructions to ensure sufficient clearance
around the device.
Vertical Mounting: 40mm (1.57 inch) above and 20mm (0.79 inch) below the device as well as a lateral distance of 5mm
(0.2 inch) to other units. In case the adjacent device is a heat source, the lateral distance will be 15mm (0.6 inch).
Horizontal Mounting: 40mm (1.57 inch) above and below the device as well as a lateral distance of 20mm (0.79 inch) to
other units.
The external enclosure where the unit will be installed shall meet the requirements for mechanical, electrical and fire enclosure.
Note that the enclosure of the device can become very hot depending on the surrounding air temperature and output load
connected to the device. Risk of burns!
The main power must be turned off before connecting or disconnecting wires to the terminals.
DO NOT insert any objects into the unit.
Dangerous voltages present for at least 5 minutes after disconnected all sources of power.
The power supplies are built in units and must be installed in a cabinet or room (condensation free environment and indoor
location) that is relatively free of conductive contaminants.
All parameters are specified at 25°C ambient and AC input unless otherwise indicated.
www.DeltaPSU.com (July 2016, Rev. 01)
TECHNICAL DATASHEET
CliQ M DIN Rail Power Supply
24V 240W 1 Phase / DRM-24V240W1PN
Functions
DC OK Relay Contacts and LED Indicator Characteristics
DC OK
(Green LED)
Overload
(Red LED)
DC OK
Relay Contact
Normal Operation
ON
OFF
Closed
During Power Boost
ON
OFF
Closed
Overload
(Vout ≤ 90% of adjusted voltage)
OFF
ON
Open
Output Short Circuit
OFF
ON
Open
Over Temperature
OFF
Flashing
Open
No Input Power
OFF
OFF
Open
CliQ M Status
■ Graph illustrating the Start-up Time, Rise Time, and Hold-up Time
Start-up Time
The time required for the output voltage before output voltage rise up, after the input voltage is applied.
Rise Time
The time required for the output voltage to change from 0% to 95% of its final steady state set value.
Hold-up Time
Time between the collapse of the AC input voltage, and the output falling to 95% of its steady state set value.
13
All parameters are specified at 25°C ambient and AC input unless otherwise indicated.
www.DeltaPSU.com (July 2016, Rev. 01)
TECHNICAL DATASHEET
CliQ M DIN Rail Power Supply
24V 240W 1 Phase / DRM-24V240W1PN
Inrush Current
Short Circuit Protection (Auto-Recovery)
Inrush current is the peak, instantaneous, input current measured
and, occurs when the input voltage is first applied. For AC input
voltages, the maximum peak value of inrush current will occur
during the first half cycle of the applied AC voltage. This peak
value decreases exponentially during subsequent cycles of AC
voltage.
The power supply’s output Short Circuit Protection function also
provides protection against short circuits. When a short circuit is
applied, the output current will operate in “Hiccup mode”. The
power supply will return to normal operation after the short circuit
is removed.
li / linr p
1.0
0.9
Output Current (IO)
50A typ.
8ms
8ms
0.5
tinr h
0.3
11A typ.
2sec
0.1
0
2sec
t (sec)
t (sec)
tinr r
Dynamic Response
Overvoltage Protection (Auto-Recovery)
The power supply output voltage will remains within ±5% of its
steady state value, when subjected to a dynamic load from 0 to
100% of its rated current.
The power supply’s overvoltage circuit will be activated when its
internal feedback circuit fails. The output voltage shall not exceed
its specifications defined on Page 6 under “Protections”.
 50% duty cycle / 5Hz to 1KHz
Max OVP Level
Output Voltage (VO)
VO ±5%
OVP
100% Load
100
10 10 5 5 5 0.5
100
Nominal
O/P Voltage
Variable O/P Voltage Range
Auto-Recovery
to Normal
Output Voltage
Zero Output
0% Load
100
100
10 10 5 5
0.5
t (ms)
Typical Overvoltage Condition as seen at the O/P
Overload & Overcurrent Protections (Auto-Recovery)
Over Temperature Protection (Auto-Recovery)
The power supply’s Overload (OLP) and Overcurrent (OCP)
Protections will be activated when output current is > 150% of IO
(output current). Upon such an occurrence, the output current will
limit to 11A typ., refer to Ⓐ and VO (output voltage) will start to
droop and operate in “Constant Current mode”. The power supply
will recover once the fault condition due to OLP or OCP is
removed, then IO is back within the specified range
As described in load de-rating section, the power supply also has
Over Temperature Protection (OTP). In the event of a higher
operating temperature at 100% load, the power supply will run
into OTP when the operating temperature is beyond what is
recommended in the de-rating graph. When activated, the output
voltage will go into bouncing mode until the temperature drops to
its normal operating temperature as recommended in the derating graph.
Output Voltage (VO)
Constant Current mode
IO < 11A typ.
Power Boost
Max 15A &
7sec
IO > 150%
Auto switch to
Output Current (A)
14
All parameters are specified at 25°C ambient and AC input unless otherwise indicated.
www.DeltaPSU.com (July 2016, Rev. 01)
TECHNICAL DATASHEET
CliQ M DIN Rail Power Supply
24V 240W 1 Phase / DRM-24V240W1PN
Power Boost
Power Boost is the reserve power available
constantly that allows reliable startup to support
sudden and short spike of loads with high inrush
current typically during turn on to remove the
need of more expensive higher rated power
supply unit. After the output has reached its
steady state set value, the power supply can
support surge loads with a higher short-term
power demand up to 150% of maximum rated
load (IO Max), for a maximum duration of 7
seconds. If the power boost lasts longer than
maximum duration, the output current will limit to
11A typ. and VO (output voltage) will start to droop
and operate in “Constant Current mode”. The
Power Boost is repetitive, need to maintain the
duty cycle & recovery time to ensure that average
(R.M.S) output power shall not exceed the
continuous maximum, see duty cycle calculation
below.
𝐷𝑢𝑡𝑦 𝑐𝑦𝑐𝑙𝑒 (%) =
TP (Power Boost Duration)
Power Boost
150%
Non-Peak Power
100%
TN (Non-Peak Power Duration)
*Total Time = TP + TN
t (sec)
𝑇𝑃
𝑇𝑜𝑡𝑎𝑙 𝑇𝑖𝑚𝑒
𝐴𝑣𝑒𝑟𝑎𝑔𝑒 𝑂𝑢𝑡𝑝𝑢𝑡 𝑃𝑜𝑤𝑒𝑟 (𝑃𝐴𝑣𝑔 ) =
OR
𝑁𝑜𝑛-𝑃𝑒𝑎𝑘 𝑃𝑜𝑤𝑒𝑟 =

Output Current (A)
(𝑃𝑜𝑤𝑒𝑟 𝐵𝑜𝑜𝑠𝑡 × 𝑇𝑃 ) + (𝑁𝑜𝑛-𝑃𝑒𝑎𝑘 𝑃𝑜𝑤𝑒𝑟 × 𝑇𝑁 )
𝑇𝑜𝑡𝑎𝑙 𝑇𝑖𝑚𝑒
�𝑃𝐴𝑣𝑔 × 𝑇𝑜𝑡𝑎𝑙 𝑇𝑖𝑚𝑒� − (𝑃𝑜𝑤𝑒𝑟 𝐵𝑜𝑜𝑠𝑡 × 𝑇𝑃 )
𝑇𝑁
An example of Power Boost and Average Output Power
Power Boost
Peak Power
(WP)
Power Boost
Duration (TP)
Duty Cycle
Non-Peak
Power (WN)
Non-Peak Power
Duration (TN)
Total Time
(T)
150%
360
7 sec
10%
226W
60 sec
67 sec
150%
360
7 sec
30%
188W
16 sec
23 sec
120%
288
7 sec
10%
234W
60 sec
67 sec
120%
288
7 sec
30%
219W
16 sec
23 sec
It is not recommended to extend the duration of Power Boost to be longer than the specified duty cycle calculation, this may cause
damage to the PSU.
15
All parameters are specified at 25°C ambient and AC input unless otherwise indicated.
www.DeltaPSU.com (July 2016, Rev. 01)
TECHNICAL DATASHEET
CliQ M DIN Rail Power Supply
24V 240W 1 Phase / DRM-24V240W1PN
Advanced Power Boost (APB)
With multiple loads connected in a system and due to one of fault load a large outrush current is drawn (demanded), this will be
detected by APB. This APB will trip the circuit breaker (circuit breaker with appropriate rating base on the system load) on the current
path of faulty load due to high current. This thus prevents the system from shutting down while the other connected current paths
continue to operate without interruption.
The following waveforms demonstrate the typical output voltage and output current when APB is activated.
24V
24V
Output Voltage
Output Voltage
50A
22V
DC OK Relay
Contact
DC OK Relay
Contact
10A
0A
Output Current
2ms/DIV
APB 200% of nominal output current for 50ms
24V
Output Current
0A
20ms/DIV
Fig. 7.1
18.4V
Fig. 7.2
APB 500% of nominal output current for 2ms
Output Voltage
50A
16.5V
DC OK Relay
Contact
Output Current
0A
4ms/DIV
Fig. 7.3
APB 500% of nominal output current for 5ms
External Input Protection Device
The unit is protected with internal fuse (not replaceable) at L pin and it has been tested and approved on 20A (UL) and 16A (IEC)
branch circuits without additional protection device. An external protection device is only required if the supplying branch has an
ampacity greater than above. Thus, if an external protective device is necessary, or, utilized, please refer a minimum value in
instruction sheet with B or C characteristic breaker.
16
All parameters are specified at 25°C ambient and AC input unless otherwise indicated.
www.DeltaPSU.com (July 2016, Rev. 01)
TECHNICAL DATASHEET
CliQ M DIN Rail Power Supply
24V 240W 1 Phase / DRM-24V240W1PN
Operating Mode

Redundant Operation
PSU 1
PSU 2
DRR-20A
In order to ensure proper redundant operation for the
power supply units (PSUs), the output voltage difference
between the two units must be kept at 0.45~0.50V for
these 24V supplies. Follow simple steps given below to
set them up for the redundant operation:
LOAD
Terminal
Step 1.
Measure output voltage of PSU 1 and PSU 2. If PSU 1 is
the master unit, then VO of PSU 1 must be higher than
PSU 2. In order to set the output voltage, individually
connect each power supply to 50% of rated load at any
line voltage from 85-264Vac, and set the PSU 1 and PSU
2 output voltage.
Com
KEY
DC OK
Signal
Terminal
+ Output
- Common Signal
L
N
PE
Step 2.
Connect the power supply units PSU 1 and PSU 2 to Vin
1 & Vin 2, respectively, of the DRR-20N (or 20A) module
shown on the right of above diagram.
Fig. 8
Redundancy Operation Connection Diagram
Step 3.
Connect the system load to Vout. Please note that output voltage Vout from DRR module will be = VO (output voltage of power supply) –
Vdrop* (in DRR module).
*Vdrop will vary from 0.60V to 0.90V (Typical 0.65V) depending on the load current and surrounding air temperature.

Parallel Operation
L
The power supply units (PSUs) can also be used for
parallel operation in order to increase the output power.
The difference in output voltage between the two units
must be kept to within 25mV of each other. This
difference must be verified with the same output load
connected independently to each unit.
+V1
PSU 1
N
N
–
–V1
+
Load
Parameters such as EMI, inrush current, leakage current,
PARD, start up time will be different from those on the
datasheet, when two units are connected in parallel. The
user will need to verify that any differences will still allow
the two power supplies connected in parallel will work
properly in their product/application.
L
+
+V2
–
PSU 2
N
–
Fig. 9
17
+
L
–V2
Parallel Operation Connection Diagram
All parameters are specified at 25°C ambient and AC input unless otherwise indicated.
www.DeltaPSU.com (July 2016, Rev. 01)
TECHNICAL DATASHEET
CliQ M DIN Rail Power Supply
24V 240W 1 Phase / DRM-24V240W1PN
L
L
+
+V1
PSU 1
N
N
+
–
L
+
–V1
+V2
PSU 2
N
Fig. 10

–
–V2
Load
–
Earth
(Vo not SELV)
Series Operation Connection Diagram
Series Operation
Delta's CliQ M can be connected in series to increase the output voltage as shown in figure above. Power supply from the same
product series only be used and with the same rated output current. The maximum load current should not exceed the smallest rated
output current. Any number of power supplies can be connected in series, user must note that output voltage > 60Vdc will not meet
SELV requirements and could be dangerous to user, the total voltage shall not exceed 150Vdc. Installation a protection against the
touching is a must and connect the output ground to earth when output voltage is not SELV. A diode in reverse bias must be added
across output terminals of each power supply, this is to prevent -V voltage being applied to other power supply in fault conditions such
as short circuit across load. During short circuit -V1 & +V1 will come across +V2 & -V2 which means connecting 2 power supplies in
opposite polarity and may cause damage to power supply. With reverse bias diodes in place the voltage across each power supply will
be restricted to one diode drop – approximately 0.7V to 1.0V. It is recommended to provide sufficient de-rating for diodes use 2 times
the voltage rating of series output voltage. E.g. the two 24V power supplies are connected in series, the total voltage is 48 volts. Hence,
recommended to use diodes with reverse voltage rating of 2x48=96 volts. Therefore diodes with reverse voltage rating of 100 volts can
be used.
During the short circuit condition, the current through diodes will be large, hence it is recommended that diodes to be least twice the
current rating of the power supply.
PSU 2 ON
PSU 1 ON
Output Voltage (Vo)
AC Input Voltage
AC Input Current
18
The turn ON would be non-monotonic as the power supply
with the fastest startup time and rise time will turn on first.
As a result, the startup waveform with 2 power supplies
connected in series would see a step.
User must consider to verify parameters such as EMI,
inrush current, leakage current, PARD, start up time would
differ from datasheet numbers as multiple power supplies
in series.
All parameters are specified at 25°C ambient and AC input unless otherwise indicated.
www.DeltaPSU.com (July 2016, Rev. 01)
TECHNICAL DATASHEET
CliQ M DIN Rail Power Supply
24V 240W 1 Phase / DRM-24V240W1PN
L
+
+
+
Load
–
Fig. 11

N
–
–
+
+
DC Input Operation Connection Diagram
DC Input Operation
Step 1.
Use a battery or similar DC source.
Step 2.
Connect +pole to L and -pole to N.
Step 3.
Connect the PE terminal to an earth wire or to the machine ground.
L1 L2 L3 PE
L
Internal fuse
N
Load
–
–
Fuse or
Circuit breaker
Fig. 12

2 of 3 Phase System Input Operation Connection Diagram
2 of 3 Phase System Input Operation
Delta's CliQ M can use on 2 of 3 phase system. Please refer to the following step.
Step 1.
The supplying voltage is below the maximum rated input. The input voltage shall be below 240Vac +10%.
Step 2.
The external protector is needed on N input line to secure a safety. N line has no protection of a fuse internally. An appropriate fuse or
circuit breaker should be connected on N input line like the following.
19
All parameters are specified at 25°C ambient and AC input unless otherwise indicated.
www.DeltaPSU.com (July 2016, Rev. 01)
TECHNICAL DATASHEET
CliQ M DIN Rail Power Supply
24V 240W 1 Phase / DRM-24V240W1PN
Others
Delta RoHS Compliant
Restriction of the usage of hazardous substances
The European directive 2011/65/EU limits the maximum impurity level of homogeneous materials such as lead,
mercury, cadmium, chrome, polybrominated flame retardants PBB and PBDE for the use in electrical and
electronic equipment. RoHS is the abbreviation for “Restriction of the use of certain hazardous substances in
electrical and electronic equipment”.
This product conforms to this standard.
Conformal Coating
The Protective Coating Technology
Delta Electronics Group has designed the perfect dipping technique which penetrates everywhere including
under device, and prevents leakage. The conformal coating dipping can be applied to PCBAs or circuit board.
The coating preserves the performance of precision electronic primarily by preventing ionizable contaminants
such as salt from reaching circuit nodes, where the material slumps around sharp edges. This can be a problem
especially in highly conversing atmosphere.
PFC – Norm EN 61000-3-2
Line Current Harmonic content
Typically, the input current waveform is not sinusoidal due to the periodical peak charging of the input capacitor.
In industrial environment, complying with EN 61000-3-2 is only necessary under special conditions. Complying
to this standard can have some technical drawbacks, such as lower efficiency as well as some commercial
aspects such as higher purchasing costs. Frequently, the user does not profit from fulfilling this standard,
therefore, it is important to know whether it is mandatory to meet this standard for a specific application.
20
All parameters are specified at 25°C ambient and AC input unless otherwise indicated.
www.DeltaPSU.com (July 2016, Rev. 01)
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