Isolated
DC-DC Converter
VLA313-2450A
Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272
www.pwrx.com
108/11 Rev. 0
DE
E
F
G
Parts No. Polarity
TB1 (OT-047 M3, OSADA) +VIN
TB2 (OT-047 M3, OSADA) -VIN
CN2 (B2P-VH, JST) 1 +VO
2 -VO
CONNECTOR TEST CIRCUIT DIAGRAM
BLOCK DIAGRAM
OUTLINE DRAWING
CN2
1
2
TB2
TB1
H C
J
CURRENT
SENSING
CONTROL
POWER
MAIN
CONTROL
RECTIFIER
GATE
POWER
HIGH SIDE
DRIVE
LOW SIDE
DRIVE
A
LOAD
VLA313-2450A V
VIN VO
+VO
+
−VO
+VIN
−VIN
FG
IO
+ +
− −
A
B
Description:
VLA313-2450A is an isolated DC-DC
converter designed for industrial equipment.
It is designed to convert a rectified line
voltage ranging from 400 to 900V DC into
24V DC. Total output power is 50W.
Features:
£ Input Voltage Range:
400V to 900V DC
£ Output: +24V, 2.1A
(Output Power: 50.4W)
£ Electrical Isolation Voltage
Between Input and Output:
2500 Vrms for 1 Minute
£ Over-current Protection
(Auto Resume)
Application:
On-board pre-regulator for
industrial control equipment.
Outline Drawing and Circuit Diagram
Dimensions Inches Millimeters
A 4.53±0.012 115.0±0.3
B 2.76±0.012 70.0±0.3
C 1.42 Max. 36.0 Max.
D 4.13±0.012 105.0±0.3
E 0.2 5.0
Dimensions Inches Millimeters
F 2.36±0.012 60.0±0.3
G 0.14 Dia. 3.5 Dia.
H 1.26 Max. 32.0 Max.
J 0.12 Max. 3.0 Max.
VLA313-2450A
Isolated DC-DC Converter
Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272 www.pwrx.com
208/11 Rev. 0
Absolute Maximum Ratings, Ta = 25°C unless otherwise specied
Characteristics Symbol VLA313-2450A Units
Input Voltage VIN 900 Volts
Output Current IO 2.1 A
Operating Temperature (No Condensation)*1 T
opr -20 ~ +55 °C
Storage Temperature (No Condensation) Tstg -20 ~ +75 °C
Electrtical Isolation Voltage (Between Input and Output, Sine Wave Voltage, 60Hz, 1 Minute) VISO 2500 Vrms
Electrical Isolation Voltage (Between Output and FG, Sine Wave Voltage, 60Hz, 1 Minute) VISO 2500 Vrms
Electrical and Mechanical Characteristics, Ta = 25°C, VIN = 680V unless otherwise noted
Characteristics Symbol Test Conditions Min. Typ. Max. Units
Input Voltage VIN Recommended Range 400 680 900 Volts
Output Voltage VO IO = 0.2 ~ 2.1A 22.8 24.0 25.2 Volts
Input Regulation Reg-I IO = 2.1A, VIN = 400 ~ 900V — — 100 mV
Load Regulation Reg-L IO = 0.2 ~ 2.1A — — 150 mV
Ripple Voltage VP-P IO = 2.1A*2 — — 240 mV
Efficiency h IO = 2.1A — 82 — %
*1 Please refer to de-rating characteristics.
*2 Not including spike noise.
OUTPUT CURRENT, IO, (mA)
EFFICIENCY, η, (%)
EFFICIENCY VS. OUTPUT CURRENT
CHARACTERISTICS
100
0 0.3 0.6 0.9 2.41.8 2.11.51.2
80
90
60
70
40
50
10
20
30
0
0.18
0.14
0.16
0.10
0.12
0.06
0.08
0.02
0.04
0
OUTPUT CURRENT, IO, (mA)
OUTPUT VOLTAGE, VO, (VOLTS)
OUTPUT VOLTAGE VS. OUTPUT CURRENT
CHARACTERISTICS
30
0 2.01.0 1.50.5 3.52.5 3.0
15
10
20
25
5
0
INPUT VOLTAGE, VIN, (VOLTS)
EFFICIENCY, η, (%)
EFFICIENCY VS. INPUT VOLTAGE
CHARACTERISTICS
400 500 600 800
700 900
IO = 2.1A
0 200 400 600 800 1000 0 200 400 600 800 1000
INPUT VOLTAGE, VIN, (VOLTS)
OUTPUT VOLTAGE, VO, (VOLTS)
OUTPUT VOLTAGE VS. INPUT VOLTAGE
CHARACTERISTICS
INPUT VOLTAGE, VIN, (VOLTS)
INPUT CURRENT, IIN, (A)
INPUT CURRENT VS. INPUT VOLTAGE
CHARACTERISTICS
AMBIENT TEMPERATURE, (°C)
OUTPUT CURRENT DE-RATING, (%)
DE-RATING
CHARACTERISTICS
120
-20 0 8020 40 60
100
80
60
40
20
0
VIN = 680V
RL = 11.4Ω (IO = 2.1A)
RL = 15.0Ω (IO = 1.6A)
RL = 24.0Ω (IO = 1.0A)
100
80
90
60
70
40
50
10
20
30
0
30
9
12
15
18
21
24
27
6
3
0
RL = 11.4Ω (IO = 2.1A)
RL = 15.0Ω (IO = 1.6A)
RL = 24.0Ω (IO = 1.0A)
VIN = 400V
VIN = 680V
VIN = 900V
VIN = 400V
VIN = 680V
VIN = 900V
VLA313-2450A
Isolated DC-DC Converter
Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272 www.pwrx.com
308/11 Rev. 0
Safety Precautions
Great detail and careful attention are given to the production of HVICs, such as in the development, the quality of production, and in its
reliability. However, the reliability of HVICs depends not only on their own factors but also in how they are used. When handling HVICs
please note the following cautions.
CAUTIONS
Packaging: The materials used in packaging HVICs can only withstand normal external conditions. When exposed to outside shocks,
rain, and certain environmental contamination, the packaging materials will deteriorate. Please take care in handling.
Carrying: 1. Don't stack boxes too high. Avoid placing heavy materials on boxes.
2. Boxes must be positioned correctly during transportation to avoid breakage.
3. Don't throw or drop boxes.
4. Keep boxes dry. Avoid rain or snow.
5. Minimal vibration and shock during transportation is desirable.
Storage: When storing HVICs, please observe the following notices or possible deterioration of their electrical characteristics,
risk of solderability, and external damage may occur.
1. Devices must be stored where fluctuation of temperature and humidity is minimal and must not be exposed to
direct sunlight. Store at the normal temperature of 5 to 30°C with humidity at 40 to 60%.
2. Avoid locations where corrosive gasses are generated or where a lot of dust accumulates.
3. Storage cases must be static proof.
4. Avoid putting weight on boxes.
Extended When extended storage is necessary, HVICs must be kept non-processed. When using HVICs which have been stored for
Storage: more than one year or under severe conditions, be sure to check that the exterior is free from flaws or other damage.
Maximum To prevent any electrical damage, use HVICs within the maximum ratings. The temperature, current, voltage, etc., must
Ratings: not exceed these conditions.
Polarity: To prevent HVICs from destruction and deterioration due to wrong insertion, make sure polarity of inserting leads into
the board hole conforms to the external view for the terminal arrangement.
