PMC-DSPV100W1A [DELTA]
Dual 24V/5V 100W 1 Phase; 双路24V / 5V 100W 1期
| 型号: | PMC-DSPV100W1A |
| 厂家: | 
DELTA ELECTRONICS, INC. |
| 描述: | Dual 24V/5V 100W 1 Phase |
| 文件: | 总13页 (文件大小:925K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Mount Power Supply
Technical Information
PMC-DSPV100W1A
Dual 24V/5V 100W 1 Phase
Features:
Full aluminium casing for
lightweight and corrosion
resistant handling
Ease of wire connection to
Terminals
Dual O/P 24V & 5V
Universal AC input
Overload protection
Over voltage protection
Thermal protection
MTBF:>700,000hrs
Efficiency> 86%typ.
Expected life time: 10 years
2 year warranty
RoHS compliant
Summary
The new Hi-End series with Dual O/P voltage 24V &
5V Enclosed Power Supply is the latest offering from
one of the world’s largest power supply
manufacturers and solution providers - Delta.
The product range offers a nominal output voltage of
24V, a wide temperature range from -10°C to +70°C
and a highly dependable minimum holdup time.
The state-of-the-art design is made to withstand
harsh industrial environments. What makes the
product stands out from the crowd is its lightweight
full aluminum body design which can withstand shock
and vibration according to IEC60068-2.
Delta’s Panel Mount Power Supply also offers
overvoltage and overload protection. Using a wide
input voltage range design, it is compatible
worldwide. The input also includes DC operating
voltage from 120-375Vdc. Best of all, this excellent
design and quality does not come with a big price
tag.
1/13
Rev: 01,
3/14/2011
Panel Mount Power Supply
Technical Information
PMC-DSPV100W1A
Technical Data
PMC-DSPV100W1A
1.) Input Data
Nominal AC Input Voltage
Input Voltage range
100 - 240VAC
85 - 264VAC
Nominal AC Input Frequency
AC Input Frequency
50Hz
47 - 63Hz
DC Input Voltage Range
120 – 375VDC
Max. Input Current
Efficiency
3.2A Max.(2.0A @ 115VAC, 1.1A @ 230VAC)
> 86% @ 230VAC, > 84% @ 115VAC
< 50A @ 115VAC, < 100A @ 230VAC
< 1.0mA @ 240VAC
VARISTOR
Max. Inrush current limitation.(Cold Start)
Leakage Current
Transient surge voltage protection
Input fuse, internal (device protection)
Recommended backup fuse: Power circuit-breaker characteristic
T 3.15.AH / 250V
6A,10A,16A : B
2.) Output Data (24VDC)
Max. Output Power
65W
Nominal Output Voltage
24 VDC
Tolerance
Output Voltage Adjust Range
Nominal Output Current
+/- 2% (Initial Set Point tolerance)
22.8 – 26.4 VDC
2.7 A
Line Regulation
Load Regulation
+/- 0.5% Typical @ 85 to 264VAC input, 100% load
+/- 1.0% Typical @ rated input, 20% to 100% load
Startup with capacitive loads
Total PARD (Peak switching 20MHz BW @ nominal values)
Power Derating above +50°C ambient Temp.
Rise Time
Max 4,000µF (@ Nominal Input Voltage & Nominal O/P Voltage,25°C)
< 200mVpp.
Derated Linearly 2.5% / °C
< 30 ms @ full load, 25°C
Start-Up Time
< 1.0 s @ full load, 25°C
Main Buffering (Hold-Up Time ,Power failure bypass)
Dynamic Response (Overshoot & Undershoot O/P Voltage)
Parallel connection (Redundancy)
Surge voltage protection against internal surge voltages
> 15ms @ 115VAC & 230Vac, 25°C
+/-5% of 0% - 100% load.
YES ,with External Diode or Redundancy module (DRR-20A or DRR-40A)
YES
3.) Protection (24VDC)
Over Voltage Protection
Over load Protection
Over current Protection
Over Temperature Protection
Short Circuit Protection
> 32.4V, SELV output, Non-Latching (Auto recovery).
> 150% of rated load current, Auto Recovery (Hicc-up Mode).
> 150% of rated load current, Auto Recovery (Hicc-up Mode).
> 50°C Ambient Temp @ Max Load. Non-Latching (Auto-recovery.
Bouncing mode and recovers automatically when the fault is removed.
4.) Output Data (5VDC)
Max. Output Power
35W
Nominal Output Voltage
5 VDC
Tolerance
Output Voltage Adjust Range
Nominal Output Current
+/- 5% (Initial Set Point tolerance)
11.4 – 12.6 VDC
7.0 A
Line Regulation
Load Regulation
Total PARD (Peak switching 20MHz BW @ nominal values)
Power Derating above +50°C ambient Temp.
Rise Time
+/- 0.5% Typical @ 85 to 264VAC input, 100% load
+/- 1.0% Typical @ rated input, 20% to 100% load
< 80mVpp.
Derated Linearly 2.5% / °C
< 20 ms @ full load, 25°C
< 1.0 s @ full load, 25°C
> 15ms @ 115VAC & 230Vac, 25°C
+/-5% of 0% - 100% load.
YES
Start-Up Time
Main Buffering (Hold-Up Time ,Power failure bypass)
Dynamic Response (Overshoot & Undershoot O/P Voltage)
Surge voltage protection against internal surge voltages
5.) Protection (5VDC)
Over Voltage Protection
Over load Protection
Over current Protection
Over Temperature Protection
Short Circuit Protection
> 6.75V, SELV output, Non-Latching (Auto recovery).
> 150% of rated load current, Auto Recovery (Hicc-up Mode).
> 150% of rated load current, Auto Recovery (Hicc-up Mode).
> 50°C Ambient Temp @ Max Load. Non-Latching (Auto-recovery.
Bouncing mode and recovers automatically when the fault is removed.
2/13
Rev: 00.1,
3/14/2011
Panel Mount Power Supply
Technical Information
PMC-DSPV100W1A
5.) Environmental
Ambient temperature (Operating)
-20°C to +50°C, with operation to 70°C possible with a linear derating to
50% of nominal power from 50°C.
Ambient temperature (Storage)
Humidity Operation
Shock Test (in all directions)
Vibration (in all X,Y,Z direction)
(Non-Operating)
-25°C to 85°C
< 95% RH non-condensing
30G (300m/S2) according to IEC60068-2-27
10 to 150Hz @ 50m/S2 (5G peak) according to IEC 60068-2-6.
Note: all figures quoted are amplitudes (peak values).
IEC/EN 60068-2-29; 11ms/ 10gn
> 700,000 Hours.
Bump
MTBF
Expected Life Time
RoHS Compliant
Altitude (Operating)
Degree of protection
Class of protection
Pollution degree
10 years.
Yes, RoHS directive, WEEE directive
@ 3,000 Meters
IPX0
Class I with PE connection
2
Climatic class
3K3 according to EN 60721
5.) Mechanical Data
Dimension
178 mm X 97 mm X 38 mm (L X W X H)
Cooling System
Input Terminal & Output Terminal
Mounting Rail
Convection
Terminal Block 7 pin (300VAC, 20A)
Standard T35 Mounting Rail (35mm) EN60715
Connection
Screw Terminal
Input wire size
Output wire size
Indicator
AWG 18-14
AWG 18-14
Green LED “DC OK” LED (Same LED will Flicker upon fault)
Type of housing
Weight
Aluminium
0.480Kg
6.) Certification/Safety Standards
EMI : Immunity to interference according to EN 61000-6-2
LEVEL 4
15 KV / 8 KV
LEVEL 3
EN 61000-4-2 1)
Discharge of static electricity (ESD):
Air Discharge/Contact discharge:
Housing:
Frequency/Field intensity:
Fast transients (Burst Immunity):
Surge voltage Immunity:
Common Mode/Differential Mode:
I/O:
EN 61000-4-3 1)
80MHz - 1GHz / 10V/M with 1kHz tone / 80% modulation.
Radiate Field Immunity
LEVEL 3 / 2KV4)
EN 61000-4-4 1)
IEC 61000-4-5 1)
LEVEL 3
2 KV3) / 1 KV4)
LEVEL 3
0.15MHz - 80MHz / 10Vrms.
LEVEL 3 : 10A/Meter
100% dip, Input: Main Buffering > 20ms.Self Recoverable
EN 61000-4-6 1)
Conducted Immunity
EN 61000-4-8 1)
EN 61000-4-11 2)
Frequency / Uo:
Power frequency magnetic field:
Voltage dips:
EMC : Noise emission according to EN 61000-6-3
FCC Title 47, Class B / EN55022, CISPR22, CISPR11, CLASS B5
FCC Title 47, Class B / EN55022, CISPR22, CISPR11, CLASS B5
Emitted radio interface
Radio interference voltage
Galvanic Isolation :
Input / output
Input / PE
type test/routine test :
type test/routine test :
type test/routine test :
3KVAC
1.5KVAC
0.5KVAC
output / PE
Electrical equipment of machines
Electronic equipment for use in electrical power Installations
Safety entry low voltage
EN60950-1 and IEC60204-1(With overvoltage category III)
EN50178 and IEC62103
PELV (EN60204), SELV (EN60950)
UR/cUR recognize to UL60950-1 and CSA C22.2 No.60950-1,
CCC
Electrical Safety for Information technology equipment
CB test certificate and report to IEC60950-1/EN60950-1,
TUV
Electrical Safety for Industrial Control Equipment
CE (EMC and Low Voltage directive)
Protection against electric shock
DIN 57100-410
Conformance with EMC guideline 2004/108/EC
and for low voltage guideline 2006/95/EC :
Compliant with following standards :
IEC60950-1/EN60950-1 : 2006/95/EC (Low Voltage Directive)
EN55011 Class B
EN55022 Class B
: 2004/108/EC (EMC Directive)
EN55011 corresponds to CISPR11 / EN55022 corresponds to CISPR22 / EN 61000 corresponds to IEC 61000
1) Criterion A:
2) Criterion B:
Normal operating behavior within the defined limits.
Temporary impairment to operational behavior that is corrected by the device itself.
3) Symmetrical: Conductor to conductor.
4) Asymmetrical: Conductor to ground.
5) Class B:
Area of application industry and residential.
3/13
Rev: 00.1,
3/14/2011
Panel Mount Power Supply
Technical Information
PMC-DSPV100W1A
Numbering for Panel Mount Power Supply
For example: PMC-DSPV100W1A
XX X XXXX XXXX X XX
XX X XXXX XXXX X XX
X……………Voltage
Volt
XX………………….Product Type
PM Panel Mount
V
XX X XXXX XXXX X XX
XX X XXXX XXXX X XX
X………………….Model
XXXX……………Watt
C
Enclose Power
Supply
035W
050W
075W
100W
150W
35 Watt
50 Watt
75 Watt
100 Watt
150 Watt
XX X XXXX XXXX X XX
X………………….of Voltage
D
Dual O/P Voltage
XX X XXXX XXXX X XX
XX X XXXX XXXX X XX
X………………….Phase
X………………….of Voltage
1
3
1 Phase
3 Phase
S
24 Volt
XX X XXXX XXXX X XX
XX X XXXX XXXX X XX
XX………………….Variation (Eg,
Customer, material,Etc.)
X………………….Voltage
P
5 Volt
A
Delta standard
4/13
Rev: 01,
3/14/2011
Panel Mount Power Supply
Technical Information
PMC-DSPV100W1A
Block Diagrams/Connections:
Block Diagram of Power Supply
PMC-DSPV100W1A
5/13
Rev: 01,
3/14/2011
Panel Mount Power Supply
Technical Information
PMC-DSPV100W1A
Engineering Data
Derating Curve
PMC-DSPV100W1A
Note:
1. Do not use the Power Supply in areas
outside the shaded portion as shown in the
above graph, internal parts may occasionally
deteriorate or be damaged.
2. For the power derating refer above graph
ambient temperature > 50°C, the output
capacity has to be reduced by 2.5% per
Kelvin increase in temperature. If the output
capacity is not reduced when Amb > 50°C
device will run into thermal protection by
switching off i.e. device will go in bouncing
mode and will recover when Amb is lowered
or load is reduced as far as necessary to
keep device in working condition.
3. If the power supply has to be mounted in any
other direction please contact your service
provider.
4. In order for the device to function in the
manner intended, it is also necessary to
observe lateral spacing of 2 cm to other
modules.
5. Depending on the ambient temperature and
load of the device, the temperature of the
housing can become very high!
6/13
3/14/2011
Rev: 01,
Panel Mount Power Supply
Technical Information
PMC-DSPV100W1A
Mechanical drawing
Base Mounting (Vertical)
Side Mounting (Horizontal)
Device description (Fig. 1)
1 Input & Output terminal block connector
2 DC voltage adjustment potentiometer
3 DC OK control LED (green)
Side Mounting (Vertical)
Fig. 1. Mounting Orientation
Stripped wire
Lug
Fig. 2. Wire Type
7/13
Rev: 01,
3/14/2011
Panel Mount Power Supply
Technical Information
PMC-DSPV100W1A
Over Load Protection
The Power Supply is provided with an overload protection (OLP/OCP) function which protects the power supply
from possible damage by over current. Additionally power supply also has over temperature protection (OTP) in
case the over load condition persists for a longer duration and is below the overload trigger point but > 100% load.
Typically the over load current (IOL) is > ISURGE (120%) output voltage will start drooping down when the power
supply reaches max power limit and will run into bouncing mode when the output reaches UVLO (under voltage point).
The output voltage will recover automatically when the overload condition is removed.
Short Circuit Protection
The Power Supply also has a short circuit protection which is in line with the overload protection and activates
whenever there is a short across the output voltage, output goes in bouncing mode and remains until the fault is
removed.
Over Temperature Protection
Additionally power supply also has over temperature protection (OTP) as mentioned above this OTP comes into
picture when the over load condition persists for a longer duration and the output current level is below the overload
trigger point but > 100% load.
Also in the event of a higher ambient operating condition with 100% load the power supply will run into OTP when
the Ambient temperature is > 55°C. The protection is self recoverable when activated output voltage bounces until
the operating ambient temperature of the power supply is reduced or the power supply is used within its power
derating curve.
8/13
Rev: 01,
3/14/2011
Panel Mount Power Supply
Technical Information
PMC-DSPV100W1A
Over Voltage protection (24V)
The Power Supply is protected by Over voltage in the event that power supply feedback circuit fails the output
voltage will not be > 32V, +10% under any Line/Load and operating ambient conditions.
The unique feature about this over voltage protection (OVP) is that power supply doesn’t shut down but goes Hicc-
up mode (Auto recovery) which is 32V, +/-10%. The power supply output voltage will recover back to 24Vdc once
the fault condition is removed.
Over Voltage protection (5V)
The Power Supply is protected by Over voltage in the event that power supply feedback circuit fails the output
voltage will not be > 6.5V +10% under any Line/Load and operating ambient conditions.
The unique feature about this over voltage protection (OVP) is that power supply doesn’t shut down but goes Hicc-
up mode (Auto recovery) which is 6.5V +10%, -5%. The power supply output voltage will recover back to 12Vdc
once the fault condition is removed.
9/13
Rev: 01,
3/14/2011
Panel Mount Power Supply
Technical Information
PMC-DSPV100W1A
Inrush Current, Start Up Time, Output Hold Up Time
Inrush Current,
Inrush current is the first surge current seen on the input side when AC input is applied to the power supply. It is the
first pulse captured; see a typical picture for the Inrush current as seen in the power supply.
Start Up Time,
Start up time is measured from the point AC input is applied and the o/p voltage reaches within 90% of its set
value. See picture below for a typical start up time characteristic of a power supply.
Rise Time,
Rise time is the time needed for o/p voltage to rise from 10% of its set value to 90% of its set value. See the
picture below for a typical rise time measurement in a power supply.
Hold Up Time,
Hold time is the time when the AC input collapses and o/p voltage retains regulation for a certain period of time is
called as hold up time. See in the picture below a typical hold up time characteristic of a power supply. The hold
time is measured until the o/p voltage remains in regulation hence it measured until the o/p voltage reaches 95%
of its set value.
10/13
Rev: 01,
3/14/2011
Panel Mount Power Supply
Technical Information
PMC-DSPV100W1A
Output Voltage Adjust
The 24VDC connection is made using the "+" and "–" screw connections. At the time of delivery, the output
voltage is 24VDC. The output voltage can be set from 22 to 28VDC on the potentiometer seen as Adjust on the
front panel of each power supply.
Dynamic Load
Additionally power supply is capable of dynamic change of load from 0% to 100% with o/p voltage within +5% of
regulation limits. See below the dynamic behavior of the PSU.
Redundancy & Parallel Operation with Oring Diode
See below figure for a typical Redundant/Parallel operation of PSU using CliQ series power supplies. The 2 power
supplies PSU1 & PSU 2 are connected thru a twin diode where Anode1 A1 is connected to the +Ve i.e. 24V of
PSU1 and Anode2 A2 is connected to the +Ve i.e. 24V of PSU2 and the output ground GND are shorted together.
The output of these 2 power supplies PSU1 & PSU2 is drawn from the Cathode K of the twin diode thus making the
power supply work in Redundant/Parallel operation.
Redundant Operation:
When 2 power supplies are connected in below manner the power supply PSU1 or PSU2 whichever has higher
output voltage takes the max load and the other PSU is operating in standby (@No Load) in case of failure on
PSU1, PSU2 takes over the load from PSU1 and supplies the required power to end system.
11/13
Rev: 01,
3/14/2011
Panel Mount Power Supply
Technical Information
PMC-DSPV100W1A
Redundant / Parallel Operation with External Oring Diode
12/13
3/14/2011
Rev: 01,
Panel Mount Power Supply
Technical Information
PMC-DSPV100W1A
Parallel Operation:
When 2 power supplies are also connected in the above manner they can share the Load provided following steps
are taken.
Step 1:
Measure the o/p voltages @ NL measured from A1 to Gnd i.e. VA1 to Gnd of PSU1 and VA2 to Gnd of PSU2. If the
voltages are not same follow step 2, if the o/p voltages are same skip step 2 and move to step 3.
Step 2:
Adjust the o/p voltages with the help of VR available on the front panel of the PSU marked as ADJUST for both
PSU1 and PSU2 at the same level for e.g. if PSU1 o/p is measuring 24.15Vdc and PSU2 is measuring 24.25Vdc
adjust the o/p voltage of either PSU1 close to 24.25Vdc or adjust the o/p voltage of PSU2 close to 24.15Vdc.
Step 3:
Connect the PSU to the end system load and measure the o/p voltages from A1 to Gnd i.e. VA1 to Gnd of PSU1
and VA2 to Gnd of PSU2. Ensure that o/p voltages are same even after the 2 power supplies are connected to
load. If not then adjust them with the VR available on Front panel. A tolerance of + 25mV would be acceptable.
Note:
1. If the o/p voltage of any 1 power supply i.e. PSU1 or PSU2 is higher that power supply will take
the initial load and also share the maximum load.
2. If the o/p voltages adjusted are same then an equal load current sharing between the 2 power
supplies can be achieved.
3. The Oring diode must be of an appropriate rating, recommended rating of Oring Diode is
minimum 4 times of the output load current and minimum reverse voltage rating of 45Vrr.
4. A suitable HS is also advised to ensure that oring Diode is not over heated and damaged.
13/13
Rev: 01,
3/14/2011
相关型号:
©2020 ICPDF网 联系我们和版权申明