HRPG-600-spec.pdf

HRPG-600-spec.pdf
HRPG-600
600W Single Output with PFC Function
s e r ie s
■  
‧     
‧    
‧    
‧      
‧          
‧    
‧   
‧   
‧ 
‧   
‧    
‧      
‧  
SPECIFICATION
MODEL
OUTPUT
HRPG-600-3.3 HRPG-600-5
HRPG-600-7.5 HRPG-600-12 HRPG-600-15 HRPG-600-24 HRPG-600-36 HRPG-600-48
DC VOLTAGE
3.3V
5V
7.5V
12V
15V
24V
36V
48V
RATED CURRENT
CURRENT RANGE
120A
0 ~ 120A
120A
0 ~ 120A
80A
0 ~ 80A
53A
0 ~ 53A
43A
0 ~ 43A
27A
0 ~ 27A
17.5A
0 ~ 17.5A
13A
0 ~ 13A
RATED POWER
396W
600W
600W
636W
645W
648W
630W
624W
100mVp-p
100mVp-p
120mVp-p
150mVp-p
150mVp-p
200mVp-p
240mVp-p
4.3 ~ 5.8V
±2.0%
±0.5%
6.8 ~ 9V
±2 .0%
±0 .5%
10.2 ~ 13.8V
±1.0%
±0.3%
13.5 ~ 18V
±1.0%
±0.3%
21.6 ~ 28.8V
±1.0%
±0.2%
28.8 ~ 39.6V
±1.0%
±0.2%
40.8 ~ 55.2V
±1.0%
±0.2%
±1.0%
±1 .0%
±0.5%
±0.5%
±0.5%
±0.5%
±0.5%
88%
89%
89%
41.4 ~ 48.6V
57.6 ~ 67.2V
RIPPLE & NOISE (max.) Note.2 100mVp-p
VOLTAGE ADJ. RANGE
2.8 ~ 3.8V
VOLTAGE TOLERANCE Note.3 ±2. 0%
LINE REGULATION
±0. 5%
LOAD REGULATION
±1. 0%
SETUP, RISE TIME
HOLD UP TIME (Typ.)
100 0ms, 50m s/230VAC
2500ms, 50ms /115VAC a t full load
16m s/230VAC
16m s/115VAC at full loa d
VOLTAGE RANGE
120 ~ 370VDC
Note.5 85 ~ 264VAC
FREQUENCY RANGE
47 ~ 63Hz
POWER FACTOR (Typ.)
PF>0.94/230VAC
PF>0.99/115VAC at full load
INPU T
EFFICIENCY (Typ.)
78.5%
AC CURRENT (Typ.)
INRUSH CURRENT (Typ.)
8 .5A/115VAC
35A/115VAC
LE AKAGE CURRENT
<1.2mA / 240VAC
OVERLOAD
PROTECTION
OVER VOLTAGE
OVER TEMPERATURE
FUNCTION
5V STANDBY
DC OK SIGNAL
82%
86%
88%
88%
5A/230VAC
70A/230VAC
105 ~ 135 % rated output power
Protection type : Constant cu rrent limiting, r ecovers automatically after fault condition is r emoved
6 ~ 7V
9.4 ~ 10.9V
14.4 ~ 16.8V 18.8 ~ 21.8V 30 ~ 34.8V
3.96 ~ 4.62V
Protection type : Sh ut down o/p voltage, re-power on to recov er
80℃±5℃ (TSW1)detect on heatsink of power transistor
90℃±5℃ (TSW2) detect on heatsink of power doide for 3.3V,5V,7.5V ; 100℃ ±5℃ (TSW2) detect on main power output choke for others
Protection type : Shut down o/p voltage, recovers automatically after temperature goes down
5VSB : 5V@0.3A ; tolerance ± 5%, ripple : 50mVp-p(max.)
PSU turn on : 3.3 ~ 5 .6V ; PSU turn off : 0 ~ 1V
REMOTE CONTROL
RC+ / RC-: 4 ~ 10V or open = power on ; 0 ~ 0.8V or short = power off
FAN CONTROL (Typ.)
Load 35±1 5% or RT H2≧50℃ Fan on
WORKING TEMP.
-40 ~ +70℃ (Refer to "Derating Curve")
20 ~ 90% RH non-co ndensing
WORKING HUMIDITY
ENVIRONMENT STORAGE TEMP., HUMIDITY -40 ~ +85℃, 10 ~ 95% RH
TE MP. COEFFICIENT
VIBRATION
SAFETY STA NDARDS
SAFE TY & WITHSTAND VOLTAGE
ISOLATION RESISTANCE
EMC
(Note 4)
EMC EMISSION
EMC IMMUNITY
MTBF
OTHERS
DIMENSION
PACKING
NOTE
±0.03%/℃ (0 ~ 50℃ )
10 ~ 500H z, 5G 10min./1cycle , 60min. e ach along X, Y, Z axe s
UL60950- 1, TUV EN 60950-1 approved
I/P-O/P:3KVAC I/P-FG:2KVAC O/P-FG:0.5KVAC
I/P-O/P, I/P-FG, O/P -FG:100M Ohms / 5 00VDC / 25℃/ 70% R H
Complian ce to EN55 022 (CISPR22) Class B, EN61000-3-2,- 3
Complian ce to EN61 000-4-2,3,4,5,6,8,11, EN5502 4, EN61000-6-2, heavy industry level, c riteria A
147.7K hr s min. MIL-HDBK-217F (25℃ )
218*105*63.5mm (L*W*H)
1.58Kg;8pcs/13.6Kg/1.34CUFT




             ℃   
                      
          
                        
                   
   
                
                         
               
File Name:HRPG-600-SPEC 2013-06-18
HRPG-600
600W Single Output with PFC Function
Mechanical Specification
Case No. 97 7A
152.4
s e r ie s
Unit:mm
32.8
O/P
1
4-M4 L=6
2
Air flow
direction
3
4
I/P
5
6
1
2
3
1
9
2
10
218
152.4
8-M4 L=4 (Both Sides)
12max.
AC Input Terminal Pin No.
Assignment
Pin No.
1
2
3
P in No.
1~3
4~6
18max.
Connecto r Pin No. Assig nment(CN100) : HRS DF11-10 DP-2DS or equ ivalent
DC Outp ut Terminal Pin No.
A ssignment
Assignment
AC/L
AC/N
FG
32.8
Pin No.
1
2
3
4
5
Assignm ent
-V
+V
Ass ignment
A UXG
AUX
RC+
RCCS
Pin No.
6,8
7
9
10
Assignment Mating Housing
Term inal
GN D
DC- OK
HRS DF11-10DS HRS DF11-**SC
+S
or equivalent
or equiv alent
-S
Block Diagram
P WM fos c : 70KHz
ACTIV E
INRUSH
CURRENT
LIM ITING
EMI
FI LTER
I/P
AUX
POWER
RE CTIFIERS
&
FILTER
AUX
AUXG
+S
RE CTIFIERS
&
PFC
POWER
SWITCHING
RE CTIFIERS
&
FILTER
+V
-V
O.T.P.
O.L.P.
-S
DE TECTION
CIR CUIT
FG
DC OK
O.T.P.
PFC
CONTROL
PWM
CONTROL
Derating Curve
CURRENT
SHARING
O.V.P.
CS
RC+
REMOTE
CONTROL
RC-
Output Derating VS Input Voltage
100
125
90
100
80
80
70
60
50
50
20
-40
40
0
10
20
30
40
50
AMBIENT TEMPERATURE (℃)
60
70
(HORIZONTAL)
85
100
125
135
155
264
INPUT VOLTAGE (V) 60Hz
File Name:HRPG-600-SPEC 2013-06-18
HRPG-600
600W Single Output with PFC Function
s e r ie s
Function Description of CN100
Pin No. Function Description
1
AUXG Auxiliary voltage output ground. The signal return is isolated from the output terminals (+V & -V).
Auxiliary voltage output, 4.75~5.25V, referenced to pin 1(AUXG). The maximum load current is 0.3A. This output is not controlled by the
2
AUX "remote ON/OFF control".
3
4
RC+
RC-
5
CS
6,8
7
9
10
Turns the output on and off by electrical or dry contact between pin 4 (RC-), Short: Power OFF, Open: Power ON.
Remote control ground.
Current sharing signal. When units are connected in parallel, the CS pins of the units should be connected to allow current balance
between units.
GND This pin connects to the negative terminal(-V). Return for DC-OK signal output.
DC-OK DC-OK signal is a TTL level signal, referenced to pin8(DC-OK GND). High when PSU turns on.
Positive sensing. The +S signal should be connected to the positive terminal of the load. The +S and -S leads should be twisted in pair to
+S
minimize noise pick-up effect. The maximum line drop compensation is 0.5V.
-S
Negative sensing. The -S signal should be connected to the negative terminal of the load. The -S and +S leads should be twisted in pair to
minimize noise pick-up effect. The maximum line drop compensation is 0.5V.
Function Manual
1. Remote Sense
The remote s ensing compensates voltage d rop on
the load wirin g up to 0.5V.
CN100
CN 100
2
1
10
9
2
AUX AUXG 1
RC- RC+
GND
CS
GND DC-OK
10
+S
(Pin9)
+
LOAD
-S
+S
9
-S
(Pin10)
Sen se l in es shou ld
be twi st ed i n pa irs
Fig 1.1
2. DC-OK Signal
DC-OK signa l is a TTL level signal. High when PSU turns on.
CN100
Between DC-OK(pin7) and GND(pin6,8) Output Status
CN 100
3.3 ~ 5.6V
ON
2
1
0 ~ 1V
OFF
10
9
2
AUX AUXG 1
RC- RC+
GND
CS
GND DC-OK
10
-S
+S
9
Fig 2.1
File Name:HRPG-600-SPEC 2013-06-18
HRPG-600
600W Single Output with PFC Function
3.Remote Control
The PSU can be turn ed ON/OFF by using th e
"Remote Control" function.
Be tween RC+(pin3) and RC-(p in4)
CN100
CN 100
Output Status
SW ON (Short)
OFF
SW OFF (Open)
ON
s e r ie s
2
1
10
9
2
AUX AUXG 1
RC- RC+
GND
CS
GND DC-OK
10
-S
+S
9
SW
Fig 3.1
4.Cu rrent Sharing w ith Re mote Sensing (Only for 24V, 36V and 48V)
HRPG-600 has the built-in active current sharing funct ion and can be connected in parallel to provide higher output power :
(1)Parallel operation is available by connecting the units shown as below.
(+S,- S,CS and GND are connected mutually in parallel).
(2)Difference of output voltages among parallel units should be less than 2%.
(3)The total output current must not exceed the value determined by the following equation.
(output current at parallel operation)=(Rated current per u nit)×(Number of unit)×0.9
(4)In parallel operation 4 units is the maximum, please consult the manufacturer for applications of more connecting in parallel.
(5)The power supplies should be paralleled using short and large diameter wiring and then connected to the load.
PSU1
PSU2
PSU3
-V
P SU4
-V
+V
-V
+V
CN 100
-V
+V
CN100
+V
CN100
CN100
PSU1
PSU2
PSU3
PSU4
CN100
CN100
CN10 0
CN100
1 AUXG RC+
CS DC-OK + S
2 AUX RC- GND GND
-S
9
1 AUX G RC+
10
2
CS DC-OK +S
AUX RC- G ND GND
-S
9
1 AUXG R C+
10
2
+V
-V
CS DC-OK +S
AUX RC - GND GND
-S
9
1 A UXG RC+
CS DC-OK +S
10
2 AUX RC- GND GND
-S
9
10
Sense lines shoul d
be twisted in pairs
LOAD
F ig 4.1
Note : 1.In pa rallel c onnecti on, may be only one unit (master) operate if the total o utput load is les s than 2 % of ra ted load conditi on.
The other PSU (slave) may go into standby mode and its output LED and relay will not turn on.
2.2% min. of du mmy lo ad is required.
File Name:HRPG-600-SPEC 2013-06-18
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